May 27, 2020 PROJECT MANUAL FOR: BTECH MEAT SERVICES REMODEL Bridgerland Technical College Logan, Utah Project Manager: Carl Francis Utah Division of Facilities and Construction Management Architectural Design West, P.C. Architect 255 South 300 West Logan, Utah 84321 DFCM Project# 21001210 07/20/2020
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May 27, 2020
PROJECT MANUAL FOR:
BTECH MEAT SERVICES REMODEL Bridgerland Technical College
Logan, Utah
Project Manager:
Carl Francis Utah Division of Facilities and
Construction Management
Architectural Design West, P.C. Architect 255 South 300 West Logan, Utah 84321
A. 26 0001 - Electrical RequirementsB. 26 0501 - Electrical Renovation and DemolitionC. 26 0519 - Conductors and CablesD. 26 0526 - Grounding and Bonding for Electrical Systems (Remodels)E. 26 0533 - Raceways and Boxes for Electrical Systems
PART 2 PRODUCTS - NOT USEDPART 3 EXECUTION2.01 GENERAL REQUIREMENTS
A. A Substitution Request for products, assemblies, materials, and equipment constitutes arepresentation that the submitter:1. Has investigated proposed product and determined that it meets or exceeds the quality
level of the specified product, equipment, assembly, or system.2. Agrees to provide the same warranty for the substitution as for the specified product.3. Agrees to coordinate installation and make changes to other work that may be required for
the work to be complete, with no additional cost to Owner.4. Waives claims for additional costs or time extension that may subsequently become
apparent.B. Document each request with complete data substantiating compliance of proposed substitution
with Contract Documents. Burden of proof is on proposer.C. Content: Include information necessary for tracking the status of each Substitution Request,
and information necessary to provide an actionable response.D. Limit each request to a single proposed substitution item.
A. Preconstruction meeting.B. Progress meetings.C. Number of copies of submittals.D. Submittal procedures.
PART 2 PRODUCTS - NOT USEDPART 3 EXECUTION3.01 PRECONSTRUCTION MEETING
A. Contractor will schedule a meeting after Notice of Award.B. Attendance Required:
1. Owner.2. Architect.3. Contractor.
C. Contractor will prepare Agenda:1. Execution of Owner-Contractor Agreement.2. Submission of executed bonds and insurance certificates.3. Distribution of Contract Documents.4. Submission of list of subcontractors, list of products, schedule of values, and progress
schedule.5. Designation of personnel representing the parties to Contract and Architect.6. Procedures and processing of field decisions, submittals, substitutions, applications for
payments, proposal request, Change Orders, and Contract closeout procedures.7. Scheduling.
D. Record minutes and distribute copies within two days after meeting to participants, with twocopies to Architect, Owner, participants, and those affected by decisions made.
3.02 PROGRESS MEETINGSA. Contractor will make arrangements for meetings, prepare agenda with copies for participants,
C. Contractor will prepare Agenda:1. Review minutes of previous meetings.2. Review of work progress.3. Field observations, problems, and decisions.4. Identification of problems that impede, or will impede, planned progress.5. Review of submittals schedule and status of submittals.6. Maintenance of progress schedule.7. Corrective measures to regain projected schedules.8. Planned progress during succeeding work period.9. Maintenance of quality and work standards.10. Effect of proposed changes on progress schedule and coordination.11. Other business relating to work.
D. Record minutes and distribute copies within two days after meeting to participants, with twocopies to Architect, Owner, participants, and those affected by decisions made.
3.03 SUBMITTALS FOR REVIEWA. When the following are specified in individual sections, submit them for review:
1. Product data.2. Shop drawings.3. Samples for selection.4. Samples for verification.
B. Submit to Architect for review for the limited purpose of checking for compliance withinformation given and the design concept expressed in Contract Documents.
C. Samples will be reviewed for aesthetic, color, or finish selection.D. After review, provide copies and distribute in accordance with SUBMITTAL PROCEDURES
article below.3.04 NUMBER OF COPIES OF SUBMITTALS
A. Electronic Documents: Submit one electronic copy in PDF format; an electronically-marked upfile will be returned. Create PDFs at native size and right-side up; illegible files will be rejected.
B. Samples: Submit the number specified in individual specification sections; one of which will beretained by Architect.1. After review, produce duplicates.2. Retained samples will not be returned to Contractor unless specifically so stated.
3.05 SUBMITTAL PROCEDURESA. General Requirements:
1. Use a separate transmittal for each item.B. Product Data Procedures:
1. Submit only information required by individual specification sections.2. Collect required information into a single submittal.3. Do not submit (Material) Safety Data Sheets for materials or products.
C. Shop Drawing Procedures:1. Prepare accurate, drawn-to-scale, original shop drawing documentation by interpreting
Contract Documents and coordinating related work.2. Generic, non-project-specific information submitted as shop drawings do not meet the
requirements for shop drawings.D. Samples Procedures:
1. Transmit related items together as single package.2. Identify each item to allow review for applicability in relation to shop drawings showing
installation locations.3.06 SUBMITTAL REVIEW
A. Submittals for Review: Architect will review each submittal or take other appropriate action.B. Submittals for Information: Architect will acknowledge receipt and review. See below for
actions to be taken.C. Architect's actions will be reflected by marking each returned submittal using virtual stamp on
electronic submittals.D. Architect's and consultants' actions on items submitted for review:
1. Authorizing purchasing, fabrication, delivery, and installation:a. "Approved", or language with same legal meaning.b. "Approved as Noted, Resubmission not required", or language with same legal
meaning.1) At Contractor's option, submit corrected item, with review notations
2. Not Authorizing fabrication, delivery, and installation:a. "Revise and Resubmit".
1) Resubmit revised item, with review notations acknowledged and incorporated.b. "Rejected".
1) Submit item complying with requirements of Contract Documents.E. Architect's and consultants' actions on items submitted for information:
1. Items for which no action was taken:a. "Received" - to notify the Contractor that the submittal has been received for record
only.2. Items for which action was taken:
a. "Reviewed" - no further action is required from Contractor.b. "Approved", or language with same legal meaning.c. "Approved as Noted, Resubmission not required", or language with same legal
A. Waste removal facilities and services.1.02 RELATED REQUIREMENTS
A. Section 01 5500 - Vehicular Access and Parking.1.03 INTERIOR ENCLOSURES
A. Provide temporary partitions and ceilings as indicated to separate work areas fromOwner-occupied areas, to prevent penetration of dust and moisture into Owner-occupied areas,and to prevent damage to existing materials and equipment.
B. Construction: Framing and reinforced polyethylene sheet materials with closed joints andsealed edges at intersections with existing surfaces:
1.04 VEHICULAR ACCESS AND PARKING - SEE SECTION 01 5500A. Comply with regulations relating to use of streets and sidewalks, access to emergency facilities,
and access for emergency vehicles.B. Coordinate access and haul routes with governing authorities and Owner.C. Provide and maintain access to fire hydrants, free of obstructions.D. Designated existing on-site roads may be used for construction traffic.E. Provide temporary parking areas to accommodate construction personnel. When site space is
not adequate, provide additional off-site parking.F. Do not allow vehicle parking on existing pavement.
1.05 WASTE REMOVALA. Provide waste removal facilities and services as required to maintain the site in clean and
orderly condition.B. Provide containers with lids. Remove trash from site periodically.C. If materials to be recycled or re-used on the project must be stored on-site, provide suitable
non-combustible containers; locate containers holding flammable material outside the structureunless otherwise approved by the authorities having jurisdiction.
PART 2 PRODUCTS - NOT USEDPART 3 EXECUTION - NOT USED
A. Transportation, handling, storage and protection.B. Product option requirements.C. Substitution limitations.D. Maintenance materials, including extra materials, spare parts, tools, and software.
1.02 RELATED REQUIREMENTSA. Section 01 2500 - Substitution Procedures: Substitutions made during procurement and/or
construction phases.B. Section 01 6116 - Volatile Organic Compound (VOC) Content Restrictions: Requirements for
VOC-restricted product categories.C. Section 01 7419 - Construction Waste Management and Disposal: Waste disposal
requirements potentially affecting product selection, packaging and substitutions.1.03 SUBMITTALS
A. Product Data Submittals: Submit manufacturer's standard published data. Mark each copy toidentify applicable products, models, options, and other data. Supplement manufacturers'standard data to provide information specific to this Project.
B. Shop Drawing Submittals: Prepared specifically for this Project; indicate utility and electricalcharacteristics, utility connection requirements, and location of utility outlets for service forfunctional equipment and appliances.
C. Sample Submittals: Illustrate functional and aesthetic characteristics of the product, withintegral parts and attachment devices. Coordinate sample submittals for interfacing work.1. For selection from standard finishes, submit samples of the full range of the
manufacturer's standard colors, textures, and patterns.PART 2 PRODUCTS2.01 NEW PRODUCTS
A. Provide new products unless specifically required or permitted by Contract Documents.B. Use of products having any of the following characteristics is not permitted:
1. Made using or containing CFC's or HCFC's.2. Containing lead, cadmium, or asbestos.
C. Where other criteria are met, Contractor shall give preference to products that:1. If used on interior, have lower emissions, as defined in Section 01 6116.2. If wet-applied, have lower VOC content, as defined in Section 01 6116.
2.02 PRODUCT OPTIONSA. Products Specified by Reference Standards or by Description Only: Use any product meeting
those standards or description.B. Products Specified by Naming One or More Manufacturers: Use a product of one of the
manufacturers named and meeting specifications, no options or substitutions allowed.C. Products Specified by Naming One or More Manufacturers with a Provision for Substitutions:
Submit a request for substitution for any manufacturer not named.2.03 MAINTENANCE MATERIALS
A. Furnish extra materials, spare parts, tools, and software of types and in quantities specified inindividual specification sections.
B. Deliver to Project site; obtain receipt prior to final payment.
A. See Section 01 2500 - Substitution Procedures.3.02 TRANSPORTATION AND HANDLING
A. Package products for shipment in manner to prevent damage; for equipment, package to avoidloss of factory calibration.
B. If special precautions are required, attach instructions prominently and legibly on outside ofpackaging.
C. Coordinate schedule of product delivery to designated prepared areas in order to minimize sitestorage time and potential damage to stored materials.
D. Transport and handle products in accordance with manufacturer's instructions.E. Transport materials in covered trucks to prevent contamination of product and littering of
surrounding areas.F. Promptly inspect shipments to ensure that products comply with requirements, quantities are
correct, and products are undamaged.G. Provide equipment and personnel to handle products by methods to prevent soiling,
disfigurement, or damage, and to minimize handling.H. Arrange for the return of packing materials, such as wood pallets, where economically feasible.
3.03 STORAGE AND PROTECTIONA. Designate receiving/storage areas for incoming products so that they are delivered according to
installation schedule and placed convenient to work area in order to minimize waste due toexcessive materials handling and misapplication. See Section 01 7419.
B. Store and protect products in accordance with manufacturers' instructions.C. Store with seals and labels intact and legible.D. Store sensitive products in weathertight, climate-controlled enclosures in an environment
favorable to product.E. For exterior storage of fabricated products, place on sloped supports above ground.F. Protect products from damage or deterioration due to construction operations, weather,
precipitation, humidity, temperature, sunlight and ultraviolet light, dirt, dust, and othercontaminants.
G. Comply with manufacturer's warranty conditions, if any.H. Cover products subject to deterioration with impervious sheet covering. Provide ventilation to
prevent condensation and degradation of products.I. Prevent contact with material that may cause corrosion, discoloration, or staining.J. Provide equipment and personnel to store products by methods to prevent soiling,
disfigurement, or damage.K. Arrange storage of products to permit access for inspection. Periodically inspect to verify
products are undamaged and are maintained in acceptable condition.END OF SECTION
A. Requirements for VOC-Content-Restricted products.1.02 RELATED REQUIREMENTS
A. Section 01 3000 - Administrative Requirements: Submittal procedures.1.03 DEFINITIONS
A. VOC-Content-Restricted Products: All products in the following product categories, whetherspecified or not:1. Interior paints and coatings applied on site.2. Interior adhesives and sealants applied on site, including flooring adhesives.
B. Interior of Building: Anywhere inside the exterior weather barrier.C. Adhesives: All gunnable, trowelable, liquid-applied, and aerosol adhesives, whether specified or
not; including flooring adhesives, resilient base adhesives, and pipe jointing adhesives.D. Sealants: All gunnable, trowelable, and liquid-applied joint sealants and sealant primers,
whether specified or not; including firestopping sealants and duct joint sealers.1.04 REFERENCE STANDARDS
A. 40 CFR 59, Subpart D - National Volatile Organic Compound Emission Standards forArchitectural Coatings; U.S. Environmental Protection Agency; current edition.
B. ASTM D3960 - Standard Practice for Determining Volatile Organic Compound (VOC) Content ofPaints and Related Coatings; 2005 (Reapproved 2018).
C. SCAQMD 1168 - Adhesive and Sealant Applications; 1989 (Amended 2017).1.05 SUBMITTALS
A. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: For each VOC-restricted product used in the project, submit evidence of
compliance.1.06 QUALITY ASSURANCE
A. VOC Content Test Method: 40 CFR 59, Subpart D (EPA Method 24), or ASTM D3960, unlessotherwise indicated.1. Evidence of Compliance: Acceptable types of evidence are:
a. Published product data showing compliance with requirements.b. Certification by manufacturer that product complies with requirements.
PART 2 PRODUCTS2.01 MATERIALS
A. VOC-Content-Restricted Products: VOC content not greater than required by the following:1. Adhesives, Including Flooring Adhesives: SCAQMD 1168 Rule.2. Joint Sealants: SCAQMD 1168 Rule.3. Paints and Coatings: Each color; most stringent of the following:
a. 40 CFR 59, Subpart D.PART 3 EXECUTION3.01 FIELD QUALITY CONTROL
A. Owner reserves the right to reject non-compliant products, whether installed or not, and requiretheir removal and replacement with compliant products at no extra cost to Owner.
SECTION 01 7000EXECUTION AND CLOSEOUT REQUIREMENTS
PART 1 GENERAL1.01 SECTION INCLUDES
A. Examination, preparation, and general installation procedures.B. Requirements for alterations work, including selective demolition.C. Cutting and patching.D. Cleaning and protection.E. Closeout procedures, including Contractor's Correction Punch List, except payment procedures.
1.02 REFERENCE STANDARDSA. NFPA 241 - Standard for Safeguarding Construction, Alteration, and Demolition Operations;
2013.1.03 SUBMITTALS
A. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Project Record Documents: Accurately record actual locations of capped and active utilities.
1.04 PROJECT CONDITIONSA. Ventilate enclosed areas to assist cure of materials, to dissipate humidity, and to prevent
accumulation of dust, fumes, vapors, or gases.B. Dust Control: Execute work by methods to minimize raising dust from construction operations.
Provide positive means to prevent air-borne dust from dispersing into atmosphere and overadjacent property.1. Provide dust-proof barriers between construction areas and areas continuing to be
occupied by Owner.C. Noise Control: Provide methods, means, and facilities to minimize noise produced by
construction operations.PART 2 PRODUCTS2.01 PATCHING MATERIALS
A. New Materials: As specified in product sections; match existing products and work for patchingand extending work.
B. Type and Quality of Existing Products: Determine by inspecting and testing products wherenecessary, referring to existing work as a standard.
C. Product Substitution: For any proposed change in materials, submit request for substitutiondescribed in Section 01 6000 - Product Requirements.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify that existing site conditions and substrate surfaces are acceptable for subsequent work. Start of work means acceptance of existing conditions.
B. Verify that existing substrate is capable of structural support or attachment of new work beingapplied or attached.
C. Examine and verify specific conditions described in individual specification sections.D. Take field measurements before confirming product orders or beginning fabrication, to minimize
waste due to over-ordering or misfabrication.E. Prior to Cutting: Examine existing conditions prior to commencing work, including elements
subject to damage or movement during cutting and patching. After uncovering existing work,assess conditions affecting performance of work. Beginning of cutting or patching meansacceptance of existing conditions.
3.02 PREPARATIONA. Clean substrate surfaces prior to applying next material or substance.B. Seal cracks or openings of substrate prior to applying next material or substance.C. Apply manufacturer required or recommended substrate primer, sealer, or conditioner prior to
applying any new material or substance in contact or bond.3.03 GENERAL INSTALLATION REQUIREMENTS
A. Install products as specified in individual sections, in accordance with manufacturer'sinstructions and recommendations, and so as to avoid waste due to necessity for replacement.
B. Make vertical elements plumb and horizontal elements level, unless otherwise indicated.C. Install equipment and fittings plumb and level, neatly aligned with adjacent vertical and
horizontal lines, unless otherwise indicated.D. Make consistent texture on surfaces, with seamless transitions, unless otherwise indicated.E. Make neat transitions between different surfaces, maintaining texture and appearance.
3.04 ALTERATIONSA. Drawings showing existing construction and utilities are based on existing record documents
only.1. Verify that construction and utility arrangements are as indicated.2. Report discrepancies to Architect before disturbing existing installation.3. Beginning of alterations work constitutes acceptance of existing conditions.
B. Keep areas in which alterations are being conducted separated from other areas that are stilloccupied.1. Provide, erect, and maintain temporary dustproof partitions of construction specified in
Section 01 5000 in locations indicated on drawings.C. Remove existing work as indicated and as required to accomplish new work.
1. Remove items indicated on drawings.2. Relocate items indicated on drawings.3. Where new surface finishes are to be applied to existing work, perform removals, patch,
and prepare existing surfaces as required to receive new finish; remove existing finish ifnecessary for successful application of new finish.
4. Where new surface finishes are not specified or indicated, patch holes and damagedsurfaces to match adjacent finished surfaces as closely as possible.
D. Services (Including but not limited to HVAC, Plumbing, Fire Protection, Electrical, andTelecommunications): Remove, relocate, and extend existing systems to accommodate newconstruction.1. Maintain existing active systems that are to remain in operation; maintain access to
equipment and operational components; if necessary, modify installation to allow access orprovide access panel.
2. Where existing systems or equipment are not active and Contract Documents requirereactivation, put back into operational condition; repair supply, distribution, and equipmentas required.
3. Where existing active systems serve occupied facilities but are to be replaced with newservices, maintain existing systems in service until new systems are complete and readyfor service.a. Disable existing systems only to make switchovers and connections; minimize
duration of outages.b. Provide temporary connections as required to maintain existing systems in service.
4. Verify that abandoned services serve only abandoned facilities.5. Remove abandoned pipe, ducts, conduits, and equipment; remove back to source of
supply where possible, otherwise cap stub and tag with identification; patch holes left byremoval using materials specified for new construction.
E. Protect existing work to remain.1. Prevent movement of structure; provide shoring and bracing if necessary.2. Perform cutting to accomplish removals neatly and as specified for cutting new work.3. Repair adjacent construction and finishes damaged during removal work.
F. Adapt existing work to fit new work: Make as neat and smooth transition as possible.G. Patching: Where the existing surface is not indicated to be refinished, patch to match the
surface finish that existed prior to cutting. Where the surface is indicated to be refinished, patchso that the substrate is ready for the new finish.
H. Refinish existing surfaces as indicated:1. Where rooms or spaces are indicated to be refinished, refinish all visible existing surfaces
to remain to the specified condition for each material, with a neat transition to adjacentfinishes.
2. If mechanical or electrical work is exposed accidentally during the work, re-cover andrefinish to match.
I. Clean existing systems and equipment.J. Remove demolition debris and abandoned items from alterations areas and dispose of off-site;
do not burn or bury.K. Do not begin new construction in alterations areas before demolition is complete.L. Comply with all other applicable requirements of this section.
3.05 CUTTING AND PATCHINGA. Whenever possible, execute the work by methods that avoid cutting or patching.B. See Alterations article above for additional requirements.C. Perform whatever cutting and patching is necessary to:
1. Complete the work.2. Fit products together to integrate with other work.3. Provide openings for penetration of mechanical, electrical, and other services.4. Match work that has been cut to adjacent work.5. Repair areas adjacent to cuts to required condition.6. Repair new work damaged by subsequent work.7. Remove samples of installed work for testing when requested.8. Remove and replace defective and non-complying work.
D. Execute work by methods that avoid damage to other work and that will provide appropriatesurfaces to receive patching and finishing. In existing work, minimize damage and restore tooriginal condition.
E. Employ skilled and experienced installer to perform cutting for weather exposed and moistureresistant elements, and sight exposed surfaces.
F. Cut rigid materials using masonry saw or core drill. Pneumatic tools not allowed without priorapproval.
G. Restore work with new products in accordance with requirements of Contract Documents.H. Fit work air tight to pipes, sleeves, ducts, conduit, and other penetrations through surfaces.I. At penetrations of fire rated walls, partitions, ceiling, or floor construction, completely seal voids
with fire rated material in accordance with Section 07 8400, to full thickness of the penetratedelement.
J. Patching:1. Finish patched surfaces to match finish that existed prior to patching. On continuous
surfaces, refinish to nearest intersection or natural break. For an assembly, refinish entireunit.
3. Repair patched surfaces that are damaged, lifted, discolored, or showing otherimperfections due to patching work. If defects are due to condition of substrate, repairsubstrate prior to repairing finish.
3.06 PROGRESS CLEANINGA. Maintain areas free of waste materials, debris, and rubbish. Maintain site in a clean and orderly
condition.B. Remove debris and rubbish from pipe chases, plenums, attics, crawl spaces, and other closed
or remote spaces, prior to enclosing the space.C. Broom and vacuum clean interior areas prior to start of surface finishing, and continue cleaning
to eliminate dust.D. Collect and remove waste materials, debris, and trash/rubbish from site periodically and dispose
off-site; do not burn or bury.3.07 PROTECTION OF INSTALLED WORK
A. Protect installed work from damage by construction operations.B. Provide special protection where specified in individual specification sections.C. Provide temporary and removable protection for installed products. Control activity in immediate
work area to prevent damage.D. Provide protective coverings at walls, projections, jambs, sills, and soffits of openings.E. Protect finished floors, stairs, and other surfaces from traffic, dirt, wear, damage, or movement
of heavy objects, by protecting with durable sheet materials.F. Prohibit traffic or storage upon waterproofed or roofed surfaces. If traffic or activity is
necessary, obtain recommendations for protection from waterproofing or roofing materialmanufacturer.
G. Remove protective coverings when no longer needed; reuse or recycle coverings if possible.3.08 ADJUSTING
A. Adjust operating products and equipment to ensure smooth and unhindered operation.3.09 FINAL CLEANING
A. Use cleaning materials that are nonhazardous.B. Clean interior and exterior glass, surfaces exposed to view; remove temporary labels, stains
and foreign substances, polish transparent and glossy surfaces, vacuum carpeted and softsurfaces.
C. Remove all labels that are not permanent. Do not paint or otherwise cover fire test labels ornameplates on mechanical and electrical equipment.
D. Clean equipment and fixtures to a sanitary condition with cleaning materials appropriate to thesurface and material being cleaned.
E. Clean filters of operating equipment.F. Remove waste, surplus materials, trash/rubbish, and construction facilities from the site;
dispose of in legal manner; do not burn or bury.3.10 CLOSEOUT PROCEDURES
A. Make submittals that are required by governing or other authorities.B. Accompany Contractor on preliminary inspection to determine items to be listed for completion
or correction in the Contractor's Correction Punch List for Contractor's Notice of SubstantialCompletion.
C. Notify Architect when work is considered ready for Architect's Substantial Completioninspection.
D. Submit written certification containing Contractor's Correction Punch List, that ContractDocuments have been reviewed, work has been inspected, and that work is complete in
accordance with Contract Documents and ready for Architect's Substantial Completioninspection.
E. Conduct Substantial Completion inspection and create Final Correction Punch List containingArchitect's and Contractor's comprehensive list of items identified to be completed or correctedand submit to Architect.
F. Correct items of work listed in Final Correction Punch List and comply with requirements foraccess to Owner-occupied areas.
G. Notify Architect when work is considered finally complete and ready for Architect's SubstantialCompletion final inspection.
H. Complete items of work determined by Architect listed in executed Certificate of SubstantialCompletion.
END OF SECTION
Bridgerland Technical College
320163 / Meat Services Remodel 01 7419 - 1 CONSTRUCTION WASTEMANAGEMENT AND DISPOSAL
SECTION 01 7419CONSTRUCTION WASTE MANAGEMENT AND DISPOSAL
PART 1 GENERAL1.01 WASTE MANAGEMENT REQUIREMENTS
A. Owner requires that this project generate the least amount of trash and waste possible.B. Employ processes that ensure the generation of as little waste as possible due to error, poor
planning, breakage, mishandling, contamination, or other factors.C. Minimize trash/waste disposal in landfills; reuse, salvage, or recycle as much waste as
economically feasible.D. Methods of trash/waste disposal that are not acceptable are:
1. Burning on the project site.2. Burying on the project site.3. Dumping or burying on other property, public or private.4. Other illegal dumping or burying.
E. Regulatory Requirements: Contractor is responsible for knowing and complying with regulatoryrequirements, including but not limited to Federal, state and local requirements, pertaining tolegal disposal of all construction and demolition waste materials.
1.02 DEFINITIONSA. Clean: Untreated and unpainted; not contaminated with oils, solvents, caulk, or the like.B. Construction and Demolition Waste: Solid wastes typically including building materials,
packaging, trash, debris, and rubble resulting from construction, remodeling, repair anddemolition operations.
C. Hazardous: Exhibiting the characteristics of hazardous substances, i.e., ignitibility, corrosivity,toxicity or reactivity.
D. Nonhazardous: Exhibiting none of the characteristics of hazardous substances, i.e., ignitibility,corrosivity, toxicity, or reactivity.
E. Nontoxic: Neither immediately poisonous to humans nor poisonous after a long period ofexposure.
F. Recyclable: The ability of a product or material to be recovered at the end of its life cycle andremanufactured into a new product for reuse by others.
G. Recycle: To remove a waste material from the project site to another site for remanufactureinto a new product for reuse by others.
H. Recycling: The process of sorting, cleansing, treating and reconstituting solid waste and otherdiscarded materials for the purpose of using the altered form. Recycling does not includeburning, incinerating, or thermally destroying waste.
I. Return: To give back reusable items or unused products to vendors for credit.J. Reuse: To reuse a construction waste material in some manner on the project site.K. Salvage: To remove a waste material from the project site to another site for resale or reuse by
others.L. Sediment: Soil and other debris that has been eroded and transported by storm or well
production run-off water.M. Source Separation: The act of keeping different types of waste materials separate beginning
from the first time they become waste.N. Toxic: Poisonous to humans either immediately or after a long period of exposure.O. Trash: Any product or material unable to be reused, returned, recycled, or salvaged.P. Waste: Extra material or material that has reached the end of its useful life in its intended use.
Waste includes salvageable, returnable, recyclable, and reusable material.
Bridgerland Technical College
320163 / Meat Services Remodel 01 7419 - 2 CONSTRUCTION WASTEMANAGEMENT AND DISPOSAL
PART 3 EXECUTION2.01 WASTE MANAGEMENT PROCEDURES
A. See Section 01 3000 for additional requirements for project meetings, reports, submittalprocedures, and project documentation.
B. See Section 01 5000 for additional requirements related to trash/waste collection and removalfacilities and services.
C. See Section 01 6000 for waste prevention requirements related to delivery, storage, andhandling.
D. See Section 01 7000 for trash/waste prevention procedures related to demolition, cutting andpatching, installation, protection, and cleaning.
2.02 WASTE MANAGEMENT PLAN IMPLEMENTATIONA. Manager: Designate an on-site person or persons responsible for instructing workers and
overseeing and documenting results of the Waste Management Plan.B. Communication: Distribute copies of the Waste Management Plan to job site foreman, each
subcontractor, Owner, and Architect.C. Instruction: Provide on-site instruction of appropriate separation, handling, and recycling,
salvage, reuse, and return methods to be used by all parties at the appropriate stages of theproject.
D. Meetings: Discuss trash/waste management goals and issues at project meetings.1. Prebid meeting.2. Preconstruction meeting.3. Regular job-site meetings.
E. Facilities: Provide specific facilities for separation and storage of materials for recycling,salvage, reuse, return, and trash disposal, for use by all contractors and installers.1. Provide containers as required.2. Provide adequate space for pick-up and delivery and convenience to subcontractors.3. Keep recycling and trash/waste bin areas neat and clean and clearly marked in order to
avoid contamination of materials.F. Hazardous Wastes: Separate, store, and dispose of hazardous wastes according to applicable
regulations.G. Recycling: Separate, store, protect, and handle at the site identified recyclable waste products
in order to prevent contamination of materials and to maximize recyclability of identifiedmaterials. Arrange for timely pickups from the site or deliveries to recycling facility in order toprevent contamination of recyclable materials.
A. Selective demolition of building elements for alteration purposes.1.02 REFERENCE STANDARDS
A. 29 CFR 1926 - U.S. Occupational Safety and Health Standards; current edition.B. NFPA 241 - Standard for Safeguarding Construction, Alteration, and Demolition Operations;
2013.PART 2 PRODUCTS PART 3 EXECUTION3.01 SCOPE
A. Remove portions of existing buildings in the following sequence:1. Portions of the existing interior - see drawings for extent of demolition.
3.02 GENERAL PROCEDURES AND PROJECT CONDITIONSA. Comply with applicable codes and regulations for demolition operations and safety of adjacent
structures and the public.1. Obtain required permits.2. Take precautions to prevent catastrophic or uncontrolled collapse of structure to remain;
do not allow worker or public access within range of potential collapse of unstablestructure.
3. Provide, erect, and maintain temporary barriers and security devices.4. Conduct operations to minimize effects on and interference with occupants.5. Conduct operations to minimize obstruction of public and private entrances and exits; do
not obstruct required exits at any time; protect persons using entrances and exits fromremoval operations.
B. Do not begin removal until receipt of Notification to Proceed from Owner.C. Protect existing structure elements that are not to be removed.D. If hazardous materials are discovered during removal operations, stop work and notify Architect
and Owner; hazardous materials include regulated asbestos containing materials, lead, PCB's,and mercury.
E. Hazardous Materials: Comply with 29 CFR 1926 and state and local regulations.3.03 SELECTIVE DEMOLITION FOR ALTERATIONS
A. Drawings showing existing construction and utilities are based on existing record documentsonly.1. Verify that construction arrangements are as indicated.2. Report discrepancies to Architect before disturbing existing installation.3. Beginning of demolition work constitutes acceptance of existing conditions that would be
apparent upon examination prior to starting demolition.B. Separate areas in which demolition is being conducted from other areas that are still occupied.
1. Provide, erect, and maintain temporary dustproof partitions of construction specified inSection 01 5000 in locations indicated on drawings.
2. Provide sound retardant partitions of construction indicated on drawings in locationsindicated on drawings.
C. Remove existing work as indicated and as required to accomplish new work.1. Remove items indicated on drawings.
D. Services (Including but not limited to HVAC, Plumbing, Fire Protection, Electrical, andTelecommunications): Only remove portions of existing systems and equipment as indicated ondrawings.1. Maintain existing active systems that are to remain in operation; maintain access to
equipment and operational components.2. Where existing active systems serve occupied facilities but are to be replaced with new
services, maintain existing systems in service until new systems are complete and readyfor service.
3. Remove abandoned pipe, ducts, conduits, and equipment, including those aboveaccessible ceilings; remove back to source of supply where possible, otherwise cap stuband tag with identification.
E. Protect existing work to remain.1. Perform cutting to accomplish removals neatly and as specified for cutting new work.2. Repair adjacent construction and finishes damaged during removal work.3. Patch as specified for patching new work.
3.04 DEBRIS AND WASTE REMOVALA. Remove debris, junk, and trash from site.B. Leave site in clean condition, ready for subsequent work.
A. Specially fabricated cabinet units.B. Countertops.C. Hardware.D. Factory finishing.E. Preparation for installing utilities.
1.02 RELATED REQUIREMENTSA. Section 06 1000 - Rough Carpentry: Support framing, grounds, and concealed blocking.
1.03 REFERENCE STANDARDSA. AWMAC/WI (NAAWS) - North American Architectural Woodwork Standards, U.S. Version 3.1;
2016, with Errata (2017).B. BHMA A156.9 - American National Standard for Cabinet Hardware; 2015.C. NEMA LD 3 - High-Pressure Decorative Laminates; 2005.
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Shop Drawings: Indicate materials, component profiles, fastening methods, jointing details, and
accessories.C. Samples: Submit actual sample items of proposed pulls and hinges, demonstrating hardware
design, quality, and finish.1.05 QUALITY ASSURANCE
A. Fabricator Qualifications: Company specializing in fabricating the products specified in thissection with minimum five years of documented experience.1. Accredited participant in the specified certification program prior to the commencement of
fabrication and throughout the duration of the project.B. Quality Certification:
1. Provide labels or certificates indicating that the installed work complies withAWI/AWMAC/WI (AWS) or AWMAC/WI (NAAWS) requirements for grade or gradesspecified.
2. Provide designated labels on shop drawings as required by certification program.3. Provide designated labels on installed products as required by certification program.4. Submit certifications upon completion of installation that verifies this work is in compliance
with specified requirements.5. Replace, repair, or rework all work for which certification is refused.
1.06 DELIVERY, STORAGE, AND HANDLINGA. Protect units from moisture damage.B. Inspect for damage prior to installation. Claim damages with manufacturer.
PART 2 PRODUCTS2.01 MANUFACTURERS
A. Single Source Responsibility: Provide and install this work from single fabricator.2.02 CABINETS
A. Quality Standard: Custom Grade, in accordance with AWI/AWMAC/WI (AWS) or AWMAC/WI(NAAWS), unless noted otherwise.
B. Plastic Laminate Faced Cabinets: Custom grade.C. Cabinets:
1. Finish - Exposed Exterior Surfaces: Plastic Laminate.Where indicated on drawings.2. Finish - Exposed Interior Surfaces: Decorative laminate where indicated on drawings.3. Finish - Concealed Surfaces: White Melamine.4. Door and Drawer Front Edge Profiles: Square edge with inset band.5. Casework Construction Type: Type A - Frameless.6. Adjustable Shelf Loading: 50 lbs. per sq. ft.7. Cabinet Style: Flush overlay.8. Drawer Side Construction: Multiple-dovetailed.9. Drawer Construction Technique: Dovetail joints.10. Shelves to be 1" min thickness typical including uppercabinet bottoms.
B. High Pressure Decorative Laminate (HPDL): NEMA LD 3, types as recommended for specificapplications.
C. Provide specific types as indicated in drawings2.04 COUNTERTOPS
A. Plastic Laminate Countertops: Medium density fiberboard substrate covered with HPDL,post-formed, with coved integral backsplash. and 1-1/2" 3mm edge color as selected byarchitect1. See drawings for manufacturers, colors, and locations
B. Stainless Steel countertops:1. See drawings for locations2. Grade: Custom
2.05 ACCESSORIESA. Adhesive: Type recommended by fabricator to suit application.B. Integrated Edge Profile: as indicatted in the Finish Schedule.
1. Verify with laminate manufacturer that plastic laminate can tolerate the specified edgeprofile prior to fabrication.
C. Plastic Edge Banding: Extruded PVC, 3mm smooth finish;1. Color: As selected by Architect from manufacturer's standard range.Match cabinet
laminateD. Fasteners: Size and type to suit application.
2.06 HARDWAREA. Hardware: BHMA A156.9, types as indicated for quality grade specified.B. Adjustable Shelf Supports: Standard side-mounted system using 32 mm holes /support system
with K&V 345 NP supports polished chrome 1 inch (25 mm)C. Drawer and Door Pulls: back mounted.
1. Product: Pulls manufactured by See Finish Schedule.D. Cabinet Locks: Keyed cylinder, two keys per lock, each room keyed the same, steel with satin
finish.1. Product: 5 pin tumbler or disk type.. Consult owner for keying system.
3. Mounting: Side mounted.4. Stops: Integral type.5. Provide heavy duty drawer glides at pullout shelves as indicated on drawings.
G. Hinges: European style concealed self-closing type, steel with satin finish.165 deg snap ontype
H. File Drawer Inserts: provide bar type file drawer inserts to accomodate "letter" and Legal sizehanging files.
2.07 FABRICATIONA. Assembly: Shop assemble cabinets for delivery to site in units easily handled and to permit
passage through building openings.B. Edging: Fit shelves, doors, and exposed edges with specified edging. Do not use more than
one piece for any single length.C. Fitting: When necessary to cut and fit on site, provide materials with ample allowance for
cutting. Provide matching trim for scribing and site cutting.D. Plastic Laminate: Apply plastic laminate finish in full uninterrupted sheets consistent with
manufactured sizes. Fit corners and joints hairline; secure with concealed fasteners. Slightlybevel arises. Locate counter butt joints minimum 2 feet (600 mm) from sink cut-outs.
E. Mechanically fasten back splash to countertops as recommended by laminate manufacturer at16 inches (400 mm) on center.
F. Provide cutouts for plumbing fixtures. Verify locations of cutouts from on-site dimensions. Prime paint cut edges.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify adequacy of backing and support framing.B. Verify location and sizes of utility rough-in associated with work of this section.
3.02 INSTALLATIONA. Set and secure custom cabinets in place, assuring that they are rigid, plumb, and level.B. Use concealed joint fasteners to align and secure adjoining cabinet units.C. Carefully scribe casework abutting other components, with maximum gaps of 1/32 inch (1 mm).
Do not use additional overlay trim for this purpose. Provide cont sealant abutting adjacentsurfaces. Color a selected by architect.
D. Secure cabinets to floor and walls using appropriate blocking, angles, and anchorages.E. Countersink anchorage devices at exposed locations. Conceal with solid wood plugs of species
to match surrounding wood; finish flush with surrounding surfaces.3.03 ADJUSTING
A. Test installed work for rigidity and ability to support loads. Adjust as required.B. Adjust moving or operating parts to function smoothly and correctly.
3.04 CLEANINGA. Clean casework, counters, shelves, hardware, fittings, and fixtures prior to occupancy.
requirements for sealants and primers.B. Section 09 3000 - Tiling: Sealant between tile and plumbing fixtures and at junctions with other
materials and changes in plane.1.03 REFERENCE STANDARDS
A. ASTM C920 - Standard Specification for Elastomeric Joint Sealants; 2018.B. ASTM C1193 - Standard Guide for Use of Joint Sealants; 2016.
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data for Sealants: Submit manufacturer's technical data sheets for each product to be
used, that includes the following.1. Physical characteristics, including movement capability, VOC content, hardness, cure time,
and color availability.2. List of backing materials approved for use with the specific product.3. Substrates that product is known to satisfactorily adhere to and with which it is compatible.4. Substrates the product should not be used on.
C. Color Cards for Selection: Where sealant color is not specified, submit manufacturer's colorcards showing standard colors available for selection.
1.05 WARRANTYA. Correct defective work within a five year period after Date of Substantial Completion.B. Warranty: Include coverage for installed sealants and accessories that fail to achieve
watertight seal , exhibit loss of adhesion or cohesion, or do not cure.PART 2 PRODUCTS2.01 MANUFACTURERS
A. Non-Sag Sealants: Permits application in joints on vertical surfaces without sagging orslumping.1. Bostik Inc: www.bostik-us.com/#sle.2. Dow Chemical Company:
1. Interior Joints: Do not seal interior joints unless specifically indicated to be sealed. Interiorjoints to be sealed include, but are not limited to, the following items.a. Joints between door, window, and other frames and adjacent construction.b. Other joints indicated below.
2. Do not seal the following types of joints.a. Joints between suspended panel ceilings/grid and walls.
B. Interior Joints: Use non-sag polyurethane sealant, unless otherwise indicated.1. Joints between Fixtures in Wet Areas and Floors, Walls, and Ceilings: Mildew-resistant
silicone sealant; white.C. Interior Wet Areas: Bathrooms, restrooms, kitchens, food service areas, and food processing
areas; fixtures in wet areas include plumbing fixtures, food service equipment, countertops,cabinets, and other similar items.
A. Mildew-Resistant Silicone Sealant: ASTM C920, Grade NS, Uses M and A; single component,mildew resistant; not expected to withstand continuous water immersion or traffic.1. Color: White.
B. Polyurethane Sealant: ASTM C920, Grade NS, Uses M and A; single or multi-component; notexpected to withstand continuous water immersion or traffic.1. Movement Capability: Plus and minus 25 percent, minimum.2. Color: To be selected by Architect from manufacturer's standard range.
2.05 ACCESSORIESA. Backer Rod: Cylindrical cellular foam rod with surface that sealant will not adhere to,
compatible with specific sealant used, and recommended by backing and sealantmanufacturers for specific application.
B. Backing Tape: Self-adhesive polyethylene tape with surface that sealant will not adhere to andrecommended by tape and sealant manufacturers for specific application.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify that joints are ready to receive work.B. Verify that backing materials are compatible with sealants.C. Verify that backer rods are of the correct size.
3.02 PREPARATIONA. Remove loose materials and foreign matter that could impair adhesion of sealant.B. Clean joints, and prime as necessary, in accordance with manufacturer's instructions.C. Perform preparation in accordance with manufacturer's instructions and ASTM C1193.D. Mask elements and surfaces adjacent to joints from damage and disfigurement due to sealant
work; be aware that sealant drips and smears may not be completely removable.3.03 INSTALLATION
A. Perform work in accordance with sealant manufacturer's requirements for preparation ofsurfaces and material installation instructions.
B. Perform installation in accordance with ASTM C1193.C. Install bond breaker backing tape where backer rod cannot be used.D. Install sealant free of air pockets, foreign embedded matter, ridges, and sags, and without
getting sealant on adjacent surfaces.E. Do not install sealant when ambient temperature is outside manufacturer's recommended
temperature range, or will be outside that range during the entire curing period, unlessmanufacturer's approval is obtained and instructions are followed.
A. Ceiling mounted access units.B. Wall and ceiling mounted access units.
1.02 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide sizes, types, finishes, hardware, scheduled locations, and details of
adjoining work.C. Shop Drawings: Indicate exact position of each access door and/or panel unit.
1.03 QUALITY ASSURANCEA. Manufacturer Qualifications: Company specializing in manufacturing the products specified in
this section with minimum three years documented experience.PART 2 PRODUCTS2.01 ACCESS DOORS AND PANELS ASSEMBLIES
A. Wall-Mounted Units with Return Air Grille:1. Location: As indicated on drawings.2. Panel Material: Aluminum extrusions with gypsum board inlay.3. Size: 12 by 12 inches (305 by 305 mm).
B. Ceiling-Mounted Units with Return Air Grille:1. Location: Provide per drawings and at all valve and mechanical systems requiring regular
access..2. Panel Material: Aluminum extrusion with gypsum board inlay.3. Size - Lay-In Grid Ceilings: To match module of ceiling grid.4. Size - Other Ceilings: 24 inch by 24 inch (610 mm by 610 mm).5. Door/Panel: Hinged, standard duty, with tool-operated spring or cam lock and no handle.
2.02 CEILING-MOUNTED UNITSA. Wall and Ceiling Mounted Units: Factory fabricated door and frame, fully assembled units with
corner joints welded, filled and ground flush; square and without rack or warp; coordinaterequirements with type of installation assembly being used for each unit.1. Style: Exposed frame with door surface flush with frame surface.
a. Gypsum Board Mounting Criteria: Use drywall bead type frame.2. Door Style: Single thickness with rolled or turned in edges.3. Frames: 16 gage, 0.0598 inch (1.52 mm), minimum thickness.4. Hardware:
a. Hinges for Non-Fire-Rated Units: Concealed, constant force closure spring type.b. Latch/Lock: Tamperproof tool-operated cam latch.c. Number of Locks/Latches Required: As recommended by manufacturer for size of
unit.d. Gasketing: Extruded neoprene, around perimeter of door panel.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify that rough openings are correctly sized and located.B. Begin installation only after substrates have been properly prepared, and if the responsibility of
another installer, notify Architect of unsatisfactory preparation before proceeding.
3.02 PREPARATIONA. Clean surfaces thoroughly prior to proceeding with this work.B. Prepare surfaces using methods recommended by manufacturer for applicable substrates in
accordance with project conditions.3.03 INSTALLATION
A. Install units in accordance with manufacturer's instructions.B. Install frames plumb and level in openings, and secure units rigidly in place.C. Position units to provide convenient access to concealed equipment when necessary.
A. Double-acting self-closing swinging traffic doors.1.02 SUBMITTALS
A. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Manufacturer's technical information for each type of door specified, including
details about materials, components, profiles, gaskets, and finishes; include:1. Preparation and installation instructions and methods.2. Storage and handling requirements and recommendations.3. Operation and maintenance data.
C. Shop Drawings: Show installation details of doors and frames, including elevations andattachment.
D. Warranty: Submit manufacturer warranty and ensure that forms have been completed inOwner's name and registered with manufacturer.
1.03 QUALITY ASSURANCE1.04 DELIVERY, STORAGE, AND HANDLING
A. Deliver product in manufacturer's original unopened packages with label legible and intact.B. Store doors at project site on edge or in upright position, under cover and elevated above grade,
following manufacturer's instructions.1.05 WARRANTY
A. See Section 01 7800 - Closeout Submittals, for additional warranty requirements.B. Provide two year manufacturer warranty for molded polyethylene doors against damage due to
worker-ridden vehicle traffic; state limitations in executed warranty.PART 2 PRODUCTS2.01 RIGID AND SEMI-RIGID TRAFFIC DOORS
A. Lightweight Aluminum Double-Acting Traffic Doors : Aluminum sheet with formed or reinforcededges for stiffness.1. Material: Aluminum sheet, 0.063 inches (1.6 mm) thick, satin anodized finish.2. Back Edge Spine: 1 inch (25 mm) in cross-section.3. Color: As selected by Architect from manufacturer’s standard selection.4. Impact Plates: Provide stainless steel base plates on both sides of doors.5. Manufacturers:
a. Basis of Design: Curtron, Servce-Pro 20 Swinging Door.b. Substitutions: See Section 01 6000 - Product Requirements.
B. Door Assemblies: Provide double-acting, self-closing pairs of doors ; factory fabricated andfinished, complete with hinges and specified accessories.1. Door Swing: Minimum of 90 degrees each direction.2. Hinges: V-cam gravity hinges at top and pivots at bottom; mounted on bottom of header
and on top of floor; maximum rise 1-1/2 inches (38 mm); vertical and horizontal adjustmentin the field; manufacturer's standard lower hinge guards.a. Stainless Steel Safe-T hinge assembly and bottom pin
3. Hinge Guards: Manufacturer's standard material and configuration, to protect lower hingesfrom damage.a. Stainless Steel 3"x10"
4. Exposed Metal Parts: Either stainless steel, extruded aluminum, or powder coated.
5. View Windows: Provide view window in each door panel unless otherwise indicated, and60 inches (1524 mm), maximum, from finish floor to center of viewing area.
6. Dimensional Tolerances: Plus or minus 1/4 inch (6 mm) in width and height of each panel.C. View Windows: Factory installed glazing in molded or extruded black thermoplastic or rubber
gasket; use single glazing unless otherwise indicated.1. Square-Shaped Window Size: 22 inches (559 mm) by 22 inches (559 mm).2. Single Glazing: Acrylic glazing sheet, 1/4 inch (6 mm) thick, clear.
D. Door Gaskets: Manufacturer's standard configuration.1. Thermal Gaskets: 55 to 70 durometer extruded black santoprene.2. Other Gaskets: Santoprene or PVC.
door.2. Stainless Steel: Type 304, with No.4 brushed satin finish; 18 gage, 0.0500 inch (1.27 mm)
minimum base metal thickness.PART 3 EXECUTION3.01 EXAMINATION
A. Verify that jambs and frames are square and plumb.B. Verify that opening is ready to receive work and opening dimensions and clearances are as
indicated on drawings.C. If substrate preparation is responsibility of another installer, notify Architect of unsatisfactory
conditions before proceeding.D. Commencement of work by installer is acceptance of opening conditions.
3.02 INSTALLATIONA. Install doors with clearances, anchors, hardware, and accessories according to the
manufacturer's instructions and as specified.B. Install doors plumb, level, and properly aligned.
3.03 ADJUSTINGA. Clean and lubricate operating parts.B. Adjust doors to open and close smoothly and freely without binding and for proper fit of seals.
3.04 CLEANINGA. Clean surfaces using methods as recommended by manufacturer.
3.05 PROTECTIONA. Protect installed products until completion of project.B. Touch-up, repair or replace damaged products before Date of Substantial Completion.
A. Aluminum-framed storefront, with vision glass.B. Aluminum doors and frames.C. 60 Minute Rated Aluminum-framed storefront, with rated vision glass.D. 60 Minute Rated Aluminum doors and frames, with rated vision glass.E. Door hardware.
1.02 RELATED REQUIREMENTSA. Section 08 8000 - Glazing: Glass and glazing accessories.
1.03 REFERENCE STANDARDSA. ADA Standards: Americans with Disabilities Act (ADA) Standards for Accessible Design; 2010.B. ICC A117.1 - Accessible and Usable Buildings and Facilities, 2017C. AAMA CW-10 - Care and Handling of Architectural Aluminum From Shop to Site; 2015.D. ASTM B221 - Standard Specification for Aluminum and Aluminum-Alloy Extruded Bars, Rods,
Wire, Profiles, and Tubes; 2014.E. ASTM B221M - Standard Specification for Aluminum and Aluminum-Alloy Extruded Bars, Rods,
Wire, Profiles, and Tubes (Metric); 2013.F. ASTM E283 - Standard Test Method for Determining the Rate of Air Leakage Through Exterior
Windows, Curtain Walls, and Doors Under Specified Pressure Differences Across theSpecimen; 2004 (Reapproved 2012).
G. ASTM E330/E330M - Standard Test Method for Structural Performance of Exterior Windows,Doors, Skylights and Curtain Walls by Uniform Static Air Pressure Difference; 2014.
H. ASTM E331 - Standard Test Method for Water Penetration of Exterior Windows, Skylights,Doors, and Curtain Walls by Uniform Static Air Pressure Difference; 2000 (Reapproved 2016).
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide component dimensions, describe components within assembly,
anchorage and fasteners, glass and infill, door hardware, and internal drainage details.C. Shop Drawings: Indicate system dimensions, framed opening requirements and tolerances,
affected related work, expansion and contraction joint location and details, and field weldingrequired.
D. Hardware Schedule: Complete itemization of each item of hardware to be provided for eachdoor, cross-referenced to door identification numbers in Contract Documents.
1.05 QUALITY ASSURANCEA. Designer Qualifications: Design structural support framing components under direct
supervision of a Professional Structural Engineer experienced in design of this work andlicensed in the State in which the Project is located.
1.06 DELIVERY, STORAGE, AND HANDLINGA. Handle products of this section in accordance with AAMA CW-10.B. Protect finished aluminum surfaces with wrapping. Do not use adhesive papers or sprayed
coatings that bond to aluminum when exposed to sunlight or weather.
1.07 FIELD CONDITIONSA. Do not install sealants when ambient temperature is less than 40 degrees F (5 degrees C).
Maintain this minimum temperature during and 48 hours after installation.1.08 WARRANTY
A. See Section 01 7800 - Closeout Submittals, for additional warranty requirements.B. Correct defective Work within a five year period after Date of Substantial Completion.C. Provide five year manufacturer warranty against failure of glass seal on insulating glass units,
including interpane dusting or misting. Include provision for replacement of failed units.D. Provide five year manufacturer warranty against excessive degradation of exterior finish.
Include provision for replacement of units with excessive fading, chalking, or flaking.PART 2 PRODUCTS2.01 MANUFACTURERS
A. Aluminum-Framed Storefronts Manufacturers:1. Arcadia, Inc: www.arcadiainc.com/#sle.2. C.R. Laurence Company, Inc; U.S. Aluminum: www.crl-arch.com/#sle.3. Kawneer North America: www.kawneer.com/#sle.4. Tubelite, Inc: www.tubeliteinc.com/#sle.5. Substitutions: See Section 01 6000 - Product Requirements.
B. Basis of Design: Rated Aluminum-Framed Storefronts, Doors, and Glazing Manufacturers:1. Aluflam, CW-EI60 and AF-85: www.aluflam-usa.com2. Substitutions: See Section 01 6000 - Product Requirements.
2.02 BASIS OF DESIGN -- FRAMING FOR INSULATING GLAZINGA. Center-Set Style, Wind-Borne-Debris Resistance Tested:
1. Vertical Mullion Dimensions: 2 inches wide by 4-1/2 inches deep (50 mm wide by 114 mmdeep).
2. Cladding Finish: Superior performing organic coating.a. Color: Black.
2.03 BASIS OF DESIGN -- FRAMING FOR MONOLITHIC GLAZINGA. Center-Set Style, Wind-Borne-Debris Resistance Tested:
1. Vertical Mullion Dimensions: 2 inches wide by 4-1/2 inches deep (51 mm wide by 114 mmdeep).
2. Cladding Finish: Superior performing organic coating.a. Color: Black.
2.04 BASIS OF DESIGN -- SWINGING DOORSA. Wind-Borne-Debris Resistance Tested:
with infill, and related flashings, anchorage and attachment devices.1. Glazing Position: Centered (front to back).2. Finish: Superior performing organic coatings.
a. Factory finish all surfaces that will be exposed in completed assemblies.b. Touch-up surfaces cut during fabrication so that no natural aluminum is visible in
completed assemblies, including joint edges.3. Finish Color: As indicated on the Drawings.4. Fabrication: Joints and corners flush, hairline, and weatherproof, accurately fitted and
secured; prepared to receive anchors and hardware; fasteners and attachments concealedfrom view; reinforced as required for imposed loads.
5. Construction: Eliminate noises caused by wind and thermal movement, prevent vibrationharmonics, and prevent "stack effect" in internal spaces.
6. System Internal Drainage: Drain to the exterior by means of a weep drainage network anywater entering joints, condensation occurring in glazing channel, and migrating moistureoccurring within system.
7. Expansion/Contraction: Provide for expansion and contraction within system componentscaused by cycling temperature range of 170 degrees F (95 degrees C) over a 12 hourperiod without causing detrimental effect to system components, anchorages, and otherbuilding elements.
8. Movement: Allow for movement between storefront and adjacent construction, withoutdamage to components or deterioration of seals.
9. Perimeter Clearance: Minimize space between framing members and adjacentconstruction while allowing expected movement.
10. Air and Vapor Seal: Maintain continuous air barrier and vapor retarder throughoutassembly, primarily in line with inside pane of glazing and inner sheet of infill panel andheel bead of glazing compound.
B. Performance Requirements:1. Wind Loads: Design and size components to withstand the specified load requirements
without damage or permanent set, when tested in accordance with ASTM E330/E330M,using loads 1.5 times the design wind loads and 10 second duration of maximum load.a. Member Deflection: Limit member deflection to flexure limit of glass in any direction,
with full recovery of glazing materials.2. Wind-Borne-Debris Resistance: Identical full-size glazed assembly without auxiliary
protection, having Florida Building Code "FLA (PAD)" approval for Large and Small Missileimpact and pressure cycling at design wind pressure.
3. Water Penetration Resistance on Manufactured Assembly: No uncontrolled water oninterior face, when tested in accordance with ASTM E331 at pressure differential of 8 psf(390 Pa).
4. Air Leakage Laboratory Test: Maximum of 0.06 cu ft/min sq ft (0.3 L/sec sq m) of wallarea, when tested in accordance with ASTM E283 at 6.27 psf (300 Pa) pressuredifferential across assembly.
2.08 MATERIALSA. Extruded Aluminum: ASTM B221 (ASTM B221M).B. Fasteners: Stainless steel.C. Glazing Gaskets: Type to suit application to achieve weather, moisture, and air infiltration
requirements.2.09 HARDWARE
A. For each door, include weatherstripping, sill sweep strip, and threshold.B. Weatherstripping: Wool pile, continuous and replaceable; provide on all doors.C. Sill Sweep Strips: Resilient seal type, retracting, of neoprene; provide on all doors.D. Threshold: Extruded aluminum, one piece per door opening, ribbed surface; provide on all
doors.E. For rated assemblies provide, threshold, seals, and sweep.F. See Hardware Schedule for additional hardware to provide.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify dimensions, tolerances, and method of attachment with Drawings and in the field.B. Verify that wall openings and adjoining air and vapor seal materials are ready to receive work of
this section.3.02 INSTALLATION
A. Install wall system in accordance with manufacturer's instructions.B. Attach to structure to permit sufficient adjustment to accommodate construction tolerances and
other irregularities.C. Provide alignment attachments and shims to permanently fasten system to building structure.D. Align assembly plumb and level, free of warp or twist. Maintain assembly dimensional
tolerances, aligning with adjacent work.E. Provide thermal isolation where components penetrate or disrupt building insulation.F. Install sill flashings. Turn up ends and edges; seal to adjacent work to form water tight dam.G. Where fasteners penetrate sill flashings, make watertight by seating and sealing fastener heads
to sill flashing.H. Pack fibrous insulation in shim spaces at perimeter of assembly to maintain continuity of
thermal barrier.I. Set thresholds in bed of sealant and secure.J. Install hardware using templates provided.K. Touch-up minor damage to factory applied finish; replace components that cannot be
A. This Section includes commercial door hardware for the following:
1. Swinging doors.
B. Door hardware includes, but is not necessarily limited to, the following:
1. Mechanical door hardware.
2. Electromechanical door hardware, power supplies, back-ups and surge protection.
C. Related Sections:
1. Division 08 Section “Aluminum Doors and Frames”
D. Codes and References: Comply with the version year adopted by the Authority Having Jurisdiction.
1. ANSI A117.1 - Accessible and Usable Buildings and Facilities.
2. ICC/IBC - International Building Code.
3. NFPA 101 - Life Safety Code.
4. State Building Codes, Local Amendments.
E. Standards: All hardware specified herein shall comply with the following industry standards:
1. ANSI/BHMA Certified Product Standards - A156 Series
1.02 SUBMITTALS
A. Product Data: Manufacturer's product data sheets including installation details, material descriptions, dimensions of individual components and profiles, operational descriptions and finishes.
B. Door Hardware Schedule: Prepared by or under the supervision of supplier, detailing fabrication and assembly of door hardware, as well as procedures and diagrams. Coordinate the final Door Hardware Schedule with doors, frames, and related work to ensure proper size, thickness, hand, function, and finish of door hardware.
1. Format: Comply with scheduling sequence and vertical format in DHI's "Sequence and Format for the Hardware Schedule."
2. Organization: Organize the Door Hardware Schedule into door hardware sets indicating complete designations of every item required for each door or opening. Organize door hardware sets in same order as in the Door Hardware Sets at the end of Part 3. Submittals that do not follow the same format and order as the Door Hardware Sets will be rejected and subject to resubmission.
a. Type, style, function, size, label, hand, and finish of each door hardware item.
b. Manufacturer of each item.
c. Fastenings and other pertinent information.
d. Location of door hardware set, cross-referenced to Drawings, both on floor plans and in door and frame schedule.
e. Explanation of abbreviations, symbols, and codes contained in schedule.
f. Mounting locations for door hardware.
g. Door and frame sizes and materials.
4. Submittal Sequence: Submit the final Door Hardware Schedule at earliest possible date, particularly where approval of the Door Hardware Schedule must precede fabrication of other work that is critical in the Project construction schedule. Include Product Data, Samples, Shop Drawings of other work affected by door hardware, and other information essential to the coordinated review of the Door Hardware Schedule.
C. Shop Drawings: Details of electrified access control hardware indicating the following:
1. Wiring Diagrams: Upon receipt of approved schedules, submit detailed system wiring diagrams for power, signaling, monitoring, communication, and control of the access control system electrified hardware. Differentiate between manufacturer-installed and field-installed wiring. Include the following:
a. Elevation diagram of each unique access controlled opening showing location and interconnection of major system components with respect to their placement in the respective door openings.
b. Complete (risers, point-to-point) access control system block wiring diagrams.
2. Electrical Coordination: Coordinate with related Division 26 Electrical Sections the voltages and wiring details required at electrically controlled and operated hardware openings.
D. Keying Schedule: Prepared under the supervision of the Owner, separate schedule detailing final keying instructions for locksets and cylinders in writing. Include keying system explanation, door numbers, key set symbols, hardware set numbers and special instructions. Owner to approve submitted keying schedule prior to the ordering of permanent cylinders.
E. Operating and Maintenance Manuals: Provide manufacturers operating and maintenance manuals for each item comprising the complete door hardware installation in quantity as required in Division 01, Closeout Submittals. The manual to include the name, address, and contact information of the manufacturers providing the hardware and their nearest service representatives. The final copies delivered after completion of the installation test to include "as built" modifications made during installation, checkout, and acceptance.
F. Warranties and Maintenance: Special warranties and maintenance agreements specified in this Section.
A. Manufacturers Qualifications: Engage qualified manufacturers with a minimum 5 years of documented experience in producing hardware and equipment similar to that indicated for this Project and that have a proven record of successful in-service performance.
B. Installer Qualifications: Installers, trained by the primary product manufacturers, with a minimum 3 years documented experience installing both standard and electrified builders hardware similar in material, design, and extent to that indicated for this Project and whose work has resulted in construction with a record of successful in-service performance.
C. Door Hardware Supplier Qualifications: Experienced commercial door hardware distributors with a minimum 5 years documented experience supplying both mechanical and electromechanical hardware installations comparable in material, design, and extent to that indicated for this Project. Supplier recognized as a factory direct distributor in good standing by the manufacturers of the primary materials with a warehousing facility in Project's vicinity. Supplier to have on staff a certified Architectural Hardware Consultant (AHC) available during the course of the Work to consult with Contractor, Architect, and Owner concerning both standard and electromechanical door hardware and keying.
1. Scheduling Responsibility: Preparation of door hardware and keying schedules.
D. Source Limitations: Obtain each type and variety of Door Hardware specified in this Section from a single source, qualified supplier unless otherwise indicated.
1. Electrified modifications or enhancements made to a source manufacturer's product line by a secondary or third party source will not be accepted.
2. Provide electromechanical door hardware from the same manufacturer as mechanical door hardware, unless otherwise indicated.
E. Regulatory Requirements: Comply with NFPA 70, NFPA 80, NFPA 101 and ANSI A117.1 requirements and guidelines as directed in the model building code including, but not limited to, the following:
1. NFPA 70 "National Electrical Code", including electrical components, devices, and accessories listed and labeled as defined in Article 100 by a testing agency acceptable to authorities having jurisdiction, and marked for intended use.
2. Where indicated to comply with accessibility requirements, comply with Americans with Disabilities Act (ADA), "Accessibility Guidelines for Buildings and Facilities (ADAAG)," ANSI A117.1 as follows:
a. Handles, Pulls, Latches, Locks, and other Operating Devices: Shape that is easy to grasp with one hand and does not require tight grasping, tight pinching, or twisting of the wrist.
b. Door Closers: Comply with the following maximum opening-force requirements indicated:
1) Interior Hinged Doors: 5 lbf applied perpendicular to door.
2) Fire Doors: Minimum opening force allowable by authorities having jurisdiction.
c. Thresholds: Not more than 1/2 inch high. Bevel raised thresholds with a slope of not more than 1:2.
3. NFPA 101: Comply with the following for means of egress doors:
a. Latches, Locks, and Exit Devices: Not more than 15 lbf to release the latch. Locks shall not require the use of a key, tool, or special knowledge for operation.
b. Thresholds: Not more than 1/2 inch high.
F. Keying Conference: Conduct conference to comply with requirements in Division 01 Section "Project Meetings." Keying conference to incorporate the following criteria into the final keying schedule document:
1. Function of building, purpose of each area and degree of security required.
2. Plans for existing and future key system expansion.
3. Requirements for key control storage and software.
4. Installation of permanent keys, cylinder cores and software.
5. Address and requirements for delivery of keys.
G. At completion of installation, provide written documentation that components were applied to manufacturer's instructions and recommendations and according to approved schedule.
1.04 DELIVERY, STORAGE, AND HANDLING
A. Inventory door hardware on receipt and provide secure lock-up and shelving for door hardware delivered to Project site. Do not store electronic access control hardware, software or accessories at Project site without prior authorization.
B. Tag each item or package separately with identification related to the final Door Hardware Schedule, and include basic installation instructions with each item or package.
C. Deliver, as applicable, permanent keys, cylinders, cores, access control credentials, software and related accessories directly to Owner via registered mail or overnight package service. Instructions for delivery to the Owner shall be established at the "Keying Conference".
1.05 COORDINATION
A. Templates: Obtain and distribute to the parties involved templates for doors, frames, and other work specified to be factory prepared for installing standard and electrified hardware. Check Shop Drawings of other work to confirm that adequate provisions are made for locating and installing hardware to comply with indicated requirements.
B. Door Hardware and Electrical Connections: Coordinate the layout and installation of scheduled electrified door hardware and related access control equipment with required connections to source power junction boxes, low voltage power supplies, detection and monitoring hardware, and fire and detection alarm systems.
C. Door and Frame Preparation: Related Division 08 Sections (Steel, Aluminum and Wood) doors and corresponding frames are to be prepared, reinforced and pre-wired (if applicable) to receive the installation of the specified electrified, monitoring,
signaling and access control system hardware without additional in-field modifications.
1.06 WARRANTY
A. General Warranty: Reference Division 01, General Requirements. Special warranties specified in this Article shall not deprive Owner of other rights Owner may have under other provisions of the Contract Documents and shall be in addition to, and run concurrent with, other warranties made by Contractor under requirements of the Contract Documents.
B. Warranty Period: Written warranty, executed by manufacturer(s), agreeing to repair or replace components of standard and electrified door hardware that fails in materials or workmanship within specified warranty period after final acceptance by the Owner. Failures include, but are not limited to, the following:
1. Structural failures including excessive deflection, cracking, or breakage.
2. Faulty operation of the hardware.
3. Deterioration of metals, metal finishes, and other materials beyond normal weathering.
4. Electrical component defects and failures within the systems operation.
C. Standard Warranty Period: One year from date of Substantial Completion, unless otherwise indicated.
1.07 MAINTENANCE SERVICE
A. Maintenance Tools and Instructions: Furnish a complete set of specialized tools and maintenance instructions as needed for Owner's continued adjustment, maintenance, and removal and replacement of door hardware.
B. Continuing Service: Beginning at Substantial Completion, and running concurrent with the specified warranty period, provide continuous (6) months full maintenance including repair and replacement of worn or defective components, lubrication, cleaning, and adjusting as required for proper door opening operation. Provide parts and supplies as used in the manufacture and installation of original products.
PRODUCTS
1.08 SCHEDULED DOOR HARDWARE
A. General: Provide door hardware for each door to comply with requirements in Door Hardware Sets and each referenced section that products are to be supplied under.
1. Designations: Requirements for quantity, item, size, finish or color, grade, function, and other distinctive qualities of each type of door hardware are indicated in the Door Hardware Sets at the end of Part 3. Products are identified by using door hardware designations, as follows:
a. Named Manufacturer's Products: Product designation and manufacturer are listed for each door hardware type required for the purpose of establishing requirements. Manufacturers' names are abbreviated in the Door Hardware Schedule.
B. Substitutions: Requests for substitution and product approval for inclusive mechanical and electromechanical door hardware in compliance with the specifications must be submitted in writing and in accordance with the procedures
and time frames outlined in Division 01, Substitution Procedures. Approval of requests is at the discretion of the architect, owner, and their designated consultants.
1.1 HINGES
A. Basis of Design
1. Ives: 112XY
B. Acceptable Alternate:
1. Hager: 780-112HD
2. Pemko: FMSLFHD
3. Select: SL11HD
C. Requirements:
1. Geared Continuous Hinges: Shall utilize a single gear section for the door leaf and a separate gear section for the frame side of the door. Provide full mortise or surface applied hinge as scheduled in each set. Geared hinges are to be UL 10C tested and approved for 90 minutes.
1.09 DOOR OPERATING TRIM
A. Door Bolts
1. Acceptable Products:
a. Ives: FB31/FB41 DP1/DP2
b. Rockwood: 1842/1948 570
c. Hager: 282D/291D 280X
d. Trimco: 3810/3815 3910/3911
2. Requirements:
a. Provide bolt model recommended by manufacturer for door material type.
b. Provide 1 inch throw stainless steel bolt with 12 inch length unless otherwise scheduled in the sets.
c. Provide a dust proof strike for bottom bolt at all locations where there is not a threshold.
a. Provide bar type coordinator and filler bar of size as recommended by manufacturer for each opening.
b. Provide mounting brackets as required for soffit mounted hardware to be compatible with coordinator.
1.010 CYLINDERS AND KEYING
A. General: (Provided by Owner and installed by Contractor). Cylinder manufacturer to have minimum (10) years experience designing secured master key systems and have on record a published security keying system policy.
B. Source Limitations: Obtain each type of keyed cylinder and keys from the same source manufacturer as locksets and exit devices, unless otherwise indicated.
C. Cylinders: Original manufacturer cylinders complying with the following:
1. Bored-Lock Type: Cylinders with tailpieces to suit locks.
2. Keyway: Match Facility Restricted Keyway. Provided by Owner.
D. Keying System: Each type of lock and cylinders to be factory keyed. Conduct specified "Keying Conference" to define and document keying system instructions and requirements. Furnish factory cut, nickel-silver large bow permanently inscribed with a visual key control number as directed by Owner. Incorporate decisions made in keying conference, and as follows:
1. Existing System: Master key or grand master key locks to Owner's existing system.
E. Construction Keying: Provide construction master keyed cylinders or temporary keyed construction cores where specified. Provide construction master keys in quantity as required by project Contractor. Replace construction cores with permanent cores. Furnish permanent cores for installation as directed under specified "Keying Conference".
1.011 HARDWIRED ACCESS CONTROLLED LOCKS
A. Acceptable Products:
1. Schlage Electronics: AD-300 Series
B. Requirements:
1. Provide open-architecture, networked electronic lock with non-handed chassis of type scheduled.
2. Lock shall be powered via hardwired connection, 18/2 plenum cable or through power-over-ethernet (POE).
3. Provide lock that communicates with the access control panel via Weigand, Clock & Data, or RS-485 protocol through a hardwired, 22/2 overall shield with drain plenum cable or Ethernet connection. Provide interface panel as required by access control panel and communication protocol requirements.
4. Provide multi-technology integrated card reader which reads Standard Wiegand 125KHz Proximity credentials from XceedID, HID, AWID, and Casi 4001-4002, 13.56 MHz Smart Card credentials with Secured Sector, Card Serial Number (CSN), and Near Field Communication (NFC).
5. Lock shall have modular, field adaptable reader modules that may be replaced to transition to new credential technologies.
6. Provide lock with switches to monitor door position, request to exit, request to enter, key override, lock status, and interior cover tamper guard.
7. Provide lock with functions and keying as scheduled.
8. Provide lock with emergency key override.
1.012 DOOR CLOSERS
A. All door closers specified herein shall meet or exceed the following criteria:
1. General: Door closers to be from one manufacturer, matching in design and style, with the same type door preparations and templates regardless of application or spring size. Closers to be non-handed with full sized covers including installation and adjusting information on inside of cover.
2. Standards: Closers to comply with UL-10C and UBC 7-2 for Positive Pressure Fire Test and be U.L. listed for use of fire rated doors.
3. Cycle Testing: Provide closers which have surpassed 15 million cycles in a test witnessed and verified by UL.
4. Size of Units: Comply with manufacturer's written recommendations for sizing of door closers depending on size of door, exposure to weather, and anticipated frequency of use. Where closers are indicated for doors required to be accessible to the physically handicapped, provide units complying with ANSI ICC/A117.1.
5. Closer Arms: Provide heavy duty, forged steel closer arms unless otherwise indicated in Hardware Sets.
a. Where closers are indicated to have mechanical dead-stop, provide heavy duty arms and brackets with an integral positive stop.
b. Where closers are indicated to have mechanical hold open, provide heavy duty units with an additional built-in mechanical holder assembly designed to hold open against normal wind and traffic conditions. Holder to be manually selectable to on-off position.
c. Where closers are indicated to have a cushion-type stop, provide heavy duty arms and brackets with spring stop mechanism to cushion door when opened to maximum degree.
d. Closers shall not be installed on exterior or corridor side of doors; where possible install closers on door for optimum aesthetics. Provide drop plates or other accessories as required for proper mounting.
6. Closer Accessories: Provide door closer accessories including custom templates, special mounting brackets, spacers and drop plates, and through-bolt or security type fasteners as specified in the door Hardware Sets.
B. Door Closers, Surface Mounted (Heavy Duty): ANSI/BHMA A156.4, Grade 1 surface mounted, heavy duty door closers with complete spring power adjustment, sizes 1 thru 6; and fully operational adjustable according to door size, frequency of use, and opening force. Closers to be rack and pinion type, one piece cast iron or aluminum alloy body construction, with adjustable backcheck and separate non-critical valves for closing sweep and latch speed control. Provide non-handed units standard.
1. Acceptable Manufacturers:
a. LCN Closers (LCN) - 4040 Series.
1.013 FABRICATION
A. Fasteners: Provide door hardware manufactured to comply with published templates generally prepared for machine, wood, and sheet metal screws. Provide screws according to manufacturers recognized installation standards for application intended.
1.014 FINISHES
A. Standard: Designations used in the Hardware Sets and elsewhere indicate hardware finishes complying with ANSI/BHMA A156.18, including coordination with traditional U.S. finishes indicated by certain manufacturers for their products.
B. Provide quality of finish, including thickness of plating or coating (if any), composition, hardness, and other qualities complying with manufacturer's standards, but in no case less than specified by referenced standards for the applicable units of hardware.
C. Protect mechanical finishes on exposed surfaces from damage by applying a strippable, temporary protective covering before shipping.
EXECUTION
1.015 EXAMINATION
A. Examine scheduled openings, with Installer present, for compliance with requirements for installation tolerances, labeled fire door assembly construction, wall and floor construction, and other conditions affecting performance.
B. Notify architect of any discrepancies or conflicts between the door schedule, door types, drawings and scheduled hardware. Proceed only after such discrepancies or conflicts have been resolved in writing.
1.016 INSTALLATION
A. Install each item of mechanical and electromechanical hardware and access control equipment to comply with manufacturer's written instructions and according to specifications.
1. Installers are to be trained and certified by the manufacturer on the proper installation and adjustment of fire, life safety, and security products including: hanging devices; locking devices; closing devices; and seals.
B. Mounting Heights: Mount door hardware units at heights indicated in following applicable publications, unless specifically indicated or required to comply with governing regulations:
1. Standard Steel Doors and Frames: DHI's "Recommended Locations for Architectural Hardware for Standard Steel Doors and Frames."
2. Where indicated to comply with accessibility requirements, comply with ANSI A117.1 "Accessibility Guidelines for Buildings and Facilities."
3. Provide blocking in drywall partitions where wall stops or other wall mounted hardware is located.
C. Thresholds: Set thresholds for exterior and acoustical doors in full bed of sealant complying with requirements specified in Division 7 Section "Joint Sealants."
D. Storage: Provide a secure lock up for hardware delivered to the project but not yet installed. Control the handling and installation of hardware items so that the completion of the work will not be delayed by hardware losses before and after installation.
1.017 FIELD QUALITY CONTROL
A. Field Inspection: Supplier will perform a final inspection of installed door hardware and state in report whether work complies with or deviates from requirements, including whether door hardware is properly installed, operating and adjusted.
1.018 ADJUSTING
A. Initial Adjustment: Adjust and check each operating item of door hardware and each door to ensure proper operation or function of every unit. Replace units that cannot be adjusted to operate as intended. Adjust door control devices to compensate for final operation of heating and ventilating equipment and to comply with referenced accessibility requirements.
1.019 CLEANING AND PROTECTION
A. Protect all hardware stored on construction site in a covered and dry place. Protect exposed hardware installed on doors during the construction phase. Install any and all hardware at the latest possible time frame.
B. Clean operating items as necessary to restore proper finish. and provide final protection and maintain conditions that ensure door hardware is without damage or deterioration at time of owner occupancy.
1.020 DEMONSTRATION
A. Instruct Owner's maintenance personnel to adjust, operate, and maintain mechanical and electromechanical door hardware.
1.021 DOOR HARDWARE SCHEDULE
A. The following schedule of hardware sets shall be considered a guide and the supplier is cautioned to refer to general conditions, special conditions, and the full requirements of this section. It shall be the hardware supplier's responsibility to furnish all required hardware.
B. Where items of hardware are not definitely or correctly specified and are required for completion of the Work, a written statement of such omission, error, conflict, or
other discrepancy shall be sent to the Architect, prior to date specified for receipt of bids, for clarification by addendum.
C. Adjustments to the Contract Sum will not be allowed for omissions or items of hardware not clarified prior to bid opening.
HW SET NO: 01 DOOR NUMBER: (Includes but is not limited to the following doors) 150A 1 EA CONTINUOUS HINGE 112XP TWP CPC IVE 1 EA CONTINUOUS HINGE 112XP CPC IVE 1 EA AUTO FLUSH BOLT FB41P (OR AS REQ’D BY DOOR MFG) 622 IVE 1 EA DUST PROOF STRIKE DP1 622 IVE 1 EA LOCKSET AD SERIES ACCESS CONTROL LOCK
(MATCH EXISTING CAMPUS STD) 622 SCE
1 EA COORDINATOR COR X FL BLK IVE 2 EA OVERHEAD STOP 100S ADJ 622 GLY 2 EA SURFACE CLOSER 4040XP EDAW/62G 693 LCN 2 EA 5TH SCREW SUPPORT 4040XP-30 693 LCN 2 EA PA MOUNTING PLATE 4040XP-18PA 693 LCN 1 SET PERIMETER SEALS BY DOOR MFG/SUPPLIER B/O POWER SUPPLY BY SECURITY INTEGRATOR DOOR POSITION IS MONITORED THROUGH ACCESS CONTROL SYSTEM.
A. Glazing units.B. Glazing compounds and accessories.C. Insulated Spandrel units.
1.02 RELATED REQUIREMENTSA. Section 07 9200 - Joint Sealants: Sealants for other than glazing purposes.B. Section 08 1416 - Flush Wood Doors: Glazed lites in doors.
1.03 REFERENCE STANDARDSA. 16 CFR 1201 - Safety Standard for Architectural Glazing Materials; current edition.B. ANSI Z97.1 - American National Standard for Safety Glazing Materials Used in Buildings -
Safety Performance Specifications and Methods of Test; 2015.C. ASCE 7 - Minimum Design Loads and Associated Criteria for Buildings and Other Structures;
2016.D. ASTM C864 - Standard Specification for Dense Elastomeric Compression Seal Gaskets,
Setting Blocks, and Spacers; 2005 (Reapproved 2015).E. ASTM C1048 - Standard Specification for Heat-Strengthened and Fully Tempered Flat Glass;
2018.F. ASTM C1193 - Standard Guide for Use of Joint Sealants; 2016.G. ASTM C1376 - Standard Specification for Pyrolytic and Vacuum Deposition Coatings on Flat
Glass; 2015.H. ASTM E84 - Standard Test Method for Surface Burning Characteristics of Building Materials;
2018.I. ASTM E1300 - Standard Practice for Determining Load Resistance of Glass in Buildings; 2016.J. GANA (SM) - GANA Sealant Manual; 2008.
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data on Glazing Unit and Insulated Spandrel Glazing Types: Provide structural,
physical and environmental characteristics, size limitations, special handling and installationrequirements.
C. Product Data on Glazing Compounds and Accessories: Provide chemical, functional, andenvironmental characteristics, limitations, special application requirements, and identifyavailable colors.
D. Certificate: Certify that products of this section meet or exceed specified requirements.E. Warranty Documentation: Submit manufacturer warranty and ensure that forms have been
completed in Owner's name and registered with manufacturer.1.05 QUALITY ASSURANCE
A. Manufacturer Qualifications: Company specializing in manufacturing the products specified inthis section with minimum three years of documented experience.
B. Installer Qualifications: Company specializing in performing work of the type specified and withat least three years documented experience.
1.06 FIELD CONDITIONSA. Do not install glazing when ambient temperature is less than 40 degrees F (4 degrees C).
B. Maintain minimum ambient temperature before, during and 24 hours after installation of glazingcompounds.
1.07 WARRANTYA. See Section 01 7800 - Closeout Submittals, for additional warranty requirements.B. Insulating Glass Units: Provide a five (5) year manufacturer warranty to include coverage for
seal failure, interpane dusting or misting, including providing products to replace failed units.PART 2 PRODUCTS2.01 MANUFACTURERS
A. Float Glass Manufacturers:1. Pilkington: www.pilkington.com2. AGC Glass North America, Inc: www.agcglass.com/#sle.3. Guardian Glass, LLC: www.guardianglass.com/#sle.4. Pilkington North America Inc: www.pilkington.com/na/#sle.5. Vitro Architectural Glass (formerly PPG Glass): www.vitroglazings.com/#sle.6. Capital Glass; www.capitolglassco.com.7. Substitutions: Refer to Section 01 6000 - Product Requirements.
2.02 PERFORMANCE REQUIREMENTS - EXTERIOR GLAZING ASSEMBLIESA. Provide type and thickness of exterior glazing assemblies to support assembly dead loads, and
to withstand live loads caused by positive and negative wind pressure acting normal to plane ofglass.1. Design Pressure: Calculated in accordance with ASCE 7.2. Comply with ASTM E1300 for design load resistance of glass type, thickness, dimensions,
and maximum lateral deflection of supported glass.3. Seismic Loads: Design and size glazing components to withstand seismic loads and sway
displacement in accordance with the requirements of ASCE 7.4. Provide glass edge support system sufficiently stiff to limit the lateral deflection of
supported glass edges to less than 1/175 of their lengths under specified design load.5. Glass thicknesses listed are minimum.
2.03 GLASS MATERIALSA. Float Glass: Provide float glass based glazing unless otherwise indicated.
1. Fully Tempered Safety Glass: Complies with ANSI Z97.1 or 16 CFR 1201 criteria forsafety glazing used in hazardous locations.
2. Thicknesses: As indicated; provide greater thickness as required for exterior glazing windload design.
2.04 INSULATING GLASS UNITSA. Manufacturers:
1. Any of the manufacturers specified for float glass.2. Fabricator certified by glass manufacturer for type of glass, coating, and treatment involved
and capable of providing specified warranty.3. Goldray Industries, Inc; Spandrel Glass: www.goldrayglass.com/#sle.4. Basis of Design: Pilkington North America Inc: www.pilkington.com/na/#sle.5. Substitutions: Refer to Section 01 6000 - Product Requirements.
B. Insulating Glass Units: Spandrel glazing.1. Applications: Exterior spandrel glazing unless otherwise indicated.2. Space between lites filled with air.3. Outboard Lite: Annealed float glass, 1/4 inch (6.4 mm) thick, minimum.
a. Tint: White.b. Coating: Same as on vision units, on #2 surface.
4. Inboard Lite: Heat-strengthened or Fully Tempered where required by Code float glass,1/4 inch (6.4 mm) thick.
a. Tint: White.b. Opacifier: Ceramic frit, on #4 surface.c. Opacifier Color: As indicated on the drawings.
5. Total Thickness: 1 inch (25.4 mm).6. Thermal Transmittance (U-Value), Summer - Center of Glass:.26, nominal.
2.05 BASIS OF DESIGN - INSULATING GLASS UNITSA. Basis of Design - Insulating Glass Units: Vision glazing, with Low-E coating.
1. Applications: Exterior insulating glass glazing unless otherwise indicated.2. Space between lites filled with air.3. Total Thickness: 1 inch (25.4 mm).4. Thermal Transmittance (U-Value), Summer - Center of Glass:.26, nominal.5. Visible Light Transmittance (VLT): 32% to 64% percent, nominal.6. Solar Heat Gain Coefficient (SHGC): 0.19 to 0.27, nominal.7. Visible Light Reflectance, Outside: 64 percent, nominal.8. Spacer Color: Black.9. Edge Seal:10. Color: Black.11. Purge interpane space with dry air, hermetically sealed.12. Basis of Design - Vitro Architectural Glass (formerly PPG Glass)13. Outboard Lite: Annealed float glass, 1/4 inch (6.4 mm) thick, minimum.
a. Low-E Coating: Vitro Architectural Glass (formerly PPG Glass) Solarban 70XL on #2surface.
b. Glass: Clear.14. Inboard Lite: Heat-strengthened float glass, 1/4 inch (6.4 mm) thick.15. Outboard Lite: Heat-strengthened float glass, 1/4 inch (6.4 mm) thick, minimum.
a. Low-E Coating: As indicated on the Drawings.b. Glass Tint: As indicated on the Drawings.
16. Other Manufacturers: Provide either the product identified as "Basis of Design" or anequivalent product of another acceptable manufacturer.
17. Substitution Procedures: See Section 01 6000 - Product Requirements.2.06 GLAZING UNITS
A. Monolithic Interior Vision Glazing:1. Applications: Interior glazing unless otherwise indicated.2. Glass Type: Annealed or Fully Tempered where required by Code float glass.3. Tint: Clear.4. Thickness: 1/4 inch (6.4 mm), nominal.5. Butt-glazing (no interior mullions allowed):
a. Thickness:1) 3/8" tempered for heights over 5'-0" up to 8'-0"
b. Provide engineering data with submittals for all butt glazed window units2.07 ACCESSORIES
A. Setting Blocks: Silicone, with 80 to 90 Shore A durometer hardness; ASTM C864 Option II. Length of 0.1 inch for each square foot (25 mm for each square meter) of glazing or minimum 4inch (100 mm) by width of glazing rabbet space minus 1/16 inch (1.5 mm) by height to suitglazing method and pane weight and area.
B. Spacer Shims: Neoprene, 50 to 60 Shore A durometer hardness; ASTM C864 Option II. Continuous by one half the height of the glazing stop by thickness to suit application, selfadhesive on one face.
C. Glazing Tape, Back Bedding Mastic Type: Preformed, butyl-based, 100 percent solidscompound with integral resilient spacer rod applicable to application indicated; 5 to 30 curedShore A durometer hardness; coiled on release paper; black color.1. Width: As required for application.
2. Thickness: As required for application.3. Spacer Rod Diameter: As required for application.
D. Glazing Splines: Resilient silicone extruded shape to suit glazing channel retaining slot; ASTMC864 Option II; color black.
E. Glazing Clips: Manufacturer's standard type.PART 3 EXECUTION3.01 VERIFICATION OF CONDITIONS
A. Verify that openings for glazing are correctly sized and within tolerances, including those forsize, squareness, and offsets at corners.
B. Verify that surfaces of glazing channels or recesses are clean, free of obstructions that mayimpede moisture movement, weeps are clear, and support framing is ready to receive glazingsystem.
C. Verify that sealing between joints of glass framing members has been completed effectively.3.02 PREPARATION
A. Clean contact surfaces with appropriate solvent and wipe dry within maximum of 24 hoursbefore glazing. Remove coatings that are not tightly bonded to substrates.
B. Seal porous glazing channels or recesses with substrate compatible primer or sealer.C. Prime surfaces scheduled to receive sealant where required for proper sealant adhesion.
3.03 INSTALLATION, GENERALA. Install glazing in compliance with written instructions of glass, gaskets, and other glazing
material manufacturers, unless more stringent requirements are indicated, including those inglazing referenced standards.
B. Install glazing sealants in accordance with ASTM C1193, GANA (SM), and manufacturer'sinstructions.
C. Set glass lites in proper orientation so that coatings face exterior or interior as indicated.D. Prevent glass from contact with any contaminating substances that may be the result of
construction operations such as, and not limited to the following; weld splatter, fire-safing,plastering, mortar droppings, etc.
3.04 INSTALLATION - DRY GLAZING METHOD (GASKET GLAZING)A. Application - Exterior and/or Interior Glazed: Set glazing infills from either the exterior or the
interior of the building.B. Place setting blocks at 1/4 points with edge block no more than 6 inch (152 mm) from corners.C. Rest glazing on setting blocks and push against fixed stop with sufficient pressure on gasket to
attain full contact.D. Install removable stops without displacing glazing gasket; exert pressure for full continuous
contact.3.05 CLEANING
A. Remove excess glazing materials from finish surfaces immediately after application usingsolvents or cleaners recommended by manufacturers.
B. Remove non-permanent labels immediately after glazing installation is complete.C. Clean glass and adjacent surfaces after sealants are fully cured.D. Clean glass on both exposed surfaces not more than 4 days prior to Date of Substantial
Completion in accordance with glass manufacturer's written recommendations.
A. Performance criteria for gypsum board assemblies.B. Cementitious backing board.C. Gypsum wallboard.D. Joint treatment and accessories.E. Rated Reveal System
1.02 RELATED REQUIREMENTSA. Section 07 9200 - Joint Sealants: Sealing acoustical gaps in construction other than gypsum
board or plaster work.B. Section 09 2216 - Non-Structural Metal Framing.
1.03 REFERENCE STANDARDSA. ANSI A108.11 - American National Standard Specifications for Interior Installation of
Cementitious Backer Units; 2010 (Reaffirmed 2016).B. ANSI A118.9 - American National Standard Specifications for Test Methods and Specifications
for Cementitious Backer Units; 1999 (Reaffirmed 2016).C. ASTM C475/C475M - Standard Specification for Joint Compound and Joint Tape for Finishing
Gypsum Board; 2017.D. ASTM C840 - Standard Specification for Application and Finishing of Gypsum Board; 2019b.E. ASTM C1002 - Standard Specification for Steel Self-Piercing Tapping Screws for Application of
Gypsum Panel Products or Metal Plaster Bases to Wood Studs or Steel Studs; 2018.F. ASTM C1047 - Standard Specification for Accessories For Gypsum Wallboard and Gypsum
Veneer Base; 2019.G. ASTM C1396/C1396M - Standard Specification for Gypsum Board; 2017.H. ASTM D3273 - Standard Test Method for Resistance to Growth of Mold on the Surface of
Interior Coatings in an Environmental Chamber; 2016.I. GA-216 - Application and Finishing of Gypsum Panel Products; 2016.J. GA-226 - Application of Gypsum Board to Form Curved Surfaces; Gypsum Association; 2016.K. ICC (IBC) - International Building Code; Most Recent Edition Adopted by Authority Having
Jurisdiction, Including All Applicable Amendments and Supplements.1.04 SUBMITTALS
A. See Section 01 3000 - Administrative Requirements for submittal procedures.B. Product Data: Provide data on gypsum board, glass mat faced gypsum board, accessories,
and joint finishing system.C. Product Data: Provide manufacturer's data on partition head to structure connectors, showing
compliance with requirements.PART 2 PRODUCTS2.01 GYPSUM BOARD ASSEMBLIES
A. Provide completed assemblies complying with ASTM C840 and GA-216.2.02 METAL FRAMING MATERIALS
A. Non-structural Steel Framing for Application of Gypsum Board: As specified in Section 092216.
1. American Gypsum Company: www.americangypsum.com/#sle.2. CertainTeed Corporation: www.certainteed.com/#sle.3. Continental Building Products: www.continental-bp.com/#sle.4. Georgia-Pacific Gypsum: www.gpgypsum.com/#sle.5. National Gypsum Company: www.nationalgypsum.com/#sle.6. PABCO Gypsum: www.pabcogypsum.com/#sle.7. USG Corporation: www.usg.com/#sle.8. Substitutions: See Section 01 6000 - Product Requirements.
B. Gypsum Wallboard: Paper-faced gypsum panels as defined in ASTM C1396/C1396M; sizes tominimize joints in place; ends square cut.1. Application: Use for vertical surfaces and ceilings, unless otherwise indicated.2. Mold Resistance: Score of 10, when tested in accordance with ASTM D3273.
a. Mold-resistant board is required whenever board is being installed before the buildingis enclosed and conditioned.
3. At Assemblies Indicated with Fire-Resistance Rating: Use type required by indicatedtested assembly; if no tested assembly is indicated, use Type X board, UL or WH listed.
4. Thickness: a. Vertical Surfaces: 5/8 inch (16 mm).b. Ceilings: 5/8 inch (16 mm).c. Multi-Layer Assemblies: Thicknesses as indicated on drawings.
C. Backing Board For Tiled and Wet Areas: One of the following products:1. Application: Surfaces behind tile in wet areas including those indicated in wall types.2. ANSI Cement-Based Board: Non-gypsum-based; aggregated Portland cement panels
with glass fiber mesh embedded in front and back surfaces complying with ANSI A118.9 orASTM C1325.a. Thickness: 5/8 inch (16 mm).
2.04 GYPSUM WALLBOARD ACCESSORIESA. Beads, Joint Accessories, and Other Trim: ASTM C1047, galvanized steel, unless noted
otherwise.1. Corner Beads: Low profile, for 90 degree outside corners.2. L-Trim with Tear-Away Strip: Sized to fit 1/2 inch (13 mm) thick gypsum wallboard.3. Architectural Reveal Beads:
a. Shapes: As indicated on drawings.b. Rated metal strap behind reveal in rated walls
1) Basis of Design: Stockton Products, FAS-Revealc. Products:
1) Basis of Design: Stockton Products, DRM Series Reveal (for use with ratedFAS-Reveal).
2) Substitutions: See Section 01 6000 - Product Requirements.B. Joint Materials: ASTM C475/C475M and as recommended by gypsum board manufacturer for
project conditions.1. Paper Tape: 2 inch (50 mm) wide, creased paper tape for joints and corners, except as
otherwise indicated.C. Screws for Fastening of Gypsum Panel Products to Cold-Formed Steel Studs Less than 0.033
inches (0.84 mm) in Thickness and Wood Members: ASTM C1002; self-piercing tappingscrews, corrosion-resistant.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify that project conditions are appropriate for work of this section to commence.
3.02 FRAMING INSTALLATIONA. Blocking: Install wood blocking for support of:
1. All wall mounted equipment and accessories.3.03 BOARD INSTALLATION
A. Comply with ASTM C840, GA-216, and manufacturer's instructions. Install to minimize butt endjoints, especially in highly visible locations.
B. Single-Layer Nonrated: Install gypsum board in most economical direction, with ends andedges occurring over firm bearing.
C. Cementitious Backing Board: Install over steel framing members and plywood substrate whereindicated, in accordance with ANSI A108.11 and manufacturer's instructions.
D. Curved Surfaces: Apply gypsum board to curved substrates in accordance with GA-226.3.04 INSTALLATION OF TRIM AND ACCESSORIES
A. Control Joints: Place control joints consistent with lines of building spaces and as indicated.1. Not more than 30 feet (10 meters) apart on walls and ceilings over 50 feet (16 meters)
long.B. Corner Beads: Install at external corners, using longest practical lengths. C. Edge Trim: Install at locations where gypsum board abuts dissimilar materials.
3.05 JOINT TREATMENTA. Finish gypsum board in accordance with levels defined in ASTM C840, as follows:
1. Level 5: Walls and ceilings to receive semi-gloss or gloss paint finish and other areasspecifically indicated.
B. Tape, fill, and sand exposed joints, edges, and corners to produce smooth surface ready toreceive finishes.1. Feather coats of joint compound so that camber is maximum 1/32 inch (0.8 mm).
C. Where Level 5 finish is indicated, spray apply high build drywall surfacer over entire surfaceafter joints have been properly treated; achieve a flat and tool mark-free finish.
3.06 TOLERANCESA. Maximum Variation of Finished Gypsum Board Surface from True Flatness: 1/8 inch in 10 feet
A. Metal partition, ceiling, and soffit framing.B. Framing accessories.
1.02 RELATED REQUIREMENTSA. Section 07 9200 - Joint Sealants: Sealing acoustical gaps in construction other than gypsum
board or plaster work.B. Section 08 3100 - Access Doors and Panels.C. Section 09 2116 - Gypsum Board Assemblies: Execution requirements for anchors for
attaching work of this section.1.03 REFERENCE STANDARDS
A. AISI S100-12 - North American Specification for the Design of Cold-Formed Steel StructuralMembers; 2012.
B. ASTM A653/A653M - Standard Specification for Steel Sheet, Zinc-Coated (Galvanized) orZinc-Iron Alloy-Coated (Galvannealed) by the Hot-Dip Process; 2019a.
C. ASTM C645 - Standard Specification for Nonstructural Steel Framing Members; 2018.D. ASTM C754 - Standard Specification for Installation of Steel Framing Members to Receive
A. Non-Loadbearing Framing System Components: ASTM C645; galvanized sheet steel, of sizeand properties necessary to comply with ASTM C754 for the spacing indicated, with maximum deflection of wall framing of L/240 at 5 psf (L/240 at 240 Pa).1. Studs: C shaped with knurled or embossed faces.2. Runners: U shaped, sized to match studs.
B. Partition Head to Structure Connections: Provide mechanical anchorage devices thataccommodate deflection using slotted holes, screws, and anti-friction bushings, preventingrotation of studs while maintaining structural performance of partition.1. Structural Performance: Maintain lateral load resistance and vertical movement capacity
required by applicable code, when evaluated in accordance with AISI S100-12.2. Material: ASTM A653/A653M steel sheet, SS Grade 50, with G60/Z180 hot-dipped
A. Verify existing conditions before starting work.3.02 INSTALLATION OF STUD FRAMING
A. Extend partition framing to structure where indicated and to ceiling in other locations.B. Partitions Terminating at Ceiling: Attach ceiling runner securely to ceiling track in accordance
with manufacturer's instructions.C. Partitions Terminating at Structure: Attach top runner to structure, maintain clearance between
top of studs and structure, and connect studs to track using specified mechanical devices inaccordance with manufacturer's instructions; verify free movement of top of stud connections;do not leave studs unattached to track.
D. Align and secure top and bottom runners at 24 inches (600 mm) on center.
E. Fit runners under and above openings; secure intermediate studs to same spacing as wallstuds.
F. Align stud web openings horizontally.G. Secure studs to tracks using crimping method. Do not weld.H. Fabricate corners using a minimum of three studs.I. Install double studs at wall openings, door and window jambs, not more than 2 inches (50 mm)
from each side of openings.J. Coordinate erection of studs with requirements of door frames; install supports and
attachments.K. Coordinate installation of bucks, anchors, and blocking with electrical, mechanical, and other
work to be placed within or behind stud framing.L. Blocking: Use wood blocking secured to studs. Provide blocking for support of such items but
not limited to: plumbing fixtures, toilet partitions, wall cabinets, toilet accessories, hardware,opening frames, and wall-hung equipment (i.e. T.V.'S).
M. Furring: Install at spacing and locations shown on drawings. Lap splices a minimum of 6inches (150 mm).
3.03 CEILING AND SOFFIT FRAMINGA. Install furring independent of walls, columns, and above-ceiling work.B. Securely anchor hangers to structural members or embed them in structural slab. Space
hangers as required to limit deflection to criteria indicated. Use rigid hangers at exterior soffits.C. Space main carrying channels at maximum 72 inch (1 800 mm) on center, and not more than 6
inches (150 mm) from wall surfaces. Lap splice securely.D. Securely fix carrying channels to hangers to prevent turning or twisting and to transmit full load
to hangers.E. Place furring channels perpendicular to carrying channels, not more than 2 inches (50 mm)
from perimeter walls, and rigidly secure. Lap splices securely.F. Laterally brace suspension system.
3.04 TOLERANCESA. Maximum Variation From True Position: 1/8 inch in 10 feet (3 mm in 3 m).B. Maximum Variation From Plumb: 1/8 inch in 10 feet (3 mm in 3 m).
END OF SECTION
Bridgerland Technical College
320163 / Meat Services Remodel 09 3000 - 1 TILING
SECTION 09 3000TILING
PART 1 GENERAL1.01 SECTION INCLUDES
A. Tile for floor applications.B. Tile for wall applications.C. Stone thresholds.D. Non-ceramic trim.
1.02 REFERENCE STANDARDSA. ANSI A108/A118/A136 - American National Standard Specifications for the Installation of
Ceramic Tile (Compendium); 2017.B. ANSI A118.3 - American National Standard Specifications for Chemical Resistant, Water
Cleanable Tile-Setting and -Grouting Epoxy and Water Cleanable Tile-Setting Epoxy Adhesive;2013 (Revised).
C. ANSI A137.1 - American National Standard Specifications for Ceramic Tile; 2012.1.03 SUBMITTALS
A. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide manufacturers' data sheets on tile, mortar, grout, and accessories.
Include instructions for using grouts and adhesives.1.04 DELIVERY, STORAGE, AND HANDLING
A. Protect adhesives from freezing or overheating in accordance with manufacturer's instructions.1.05 FIELD CONDITIONS
A. Do not install solvent-based products in an unventilated environment.B. Maintain ambient and substrate temperature above 50 degrees F (10 degrees C) and below
100 degrees F (38 degrees C) during installation and curing of setting materials.PART 2 PRODUCTS2.01 TILE
A. Manufacturers: All products by the same manufacturer.1. American Olean Corporation: www.americanolean.com/#sle.2. Dal-Tile Corporation: www.daltile.com/#sle.3. Substitutions: See Section 01 6000 - Product Requirements.
B. Glazed Wall Tile: ANSI A137.1, standard grade.1. Size(s): As indicated on drawings.2. Color(s): As indicated on drawings.3. Pattern: As indicated on drawings.
C. Unglazed Wall Tile: ANSI A137.1, standard grade.1. Size(s): As indicated on drawings.2. Color(s): As indicated on drawings.3. Pattern: As indicated on drawings.
2.02 TRIM AND ACCESSORIESA. Non-Ceramic Trim: As indicated on the plans, style and dimensions as indicated on drawings,
for setting using tile mortar or adhesive.1. Applications:
a. Open edges of wall tile.b. Open edges of floor tile.c. Wall corners, outside and inside.
Bridgerland Technical College
320163 / Meat Services Remodel 09 3000 - 2 TILING
d. Transition between floor finishes of different heights.e. Thresholds at door openings.f. Floor to wall joints.g. Borders and other trim as indicated on drawings.
B. Thresholds: Double Hollywood Stone1. Size(s): As indicated on drawings.2. Color(s): As indicated on drawings.
2.03 SETTING MATERIALSA. Epoxy Adhesive and Mortar Bond Coat: ANSI A118.3.
1. Applications: Where indicated on drawings.2.04 GROUTS
A. Match existing grout - see drawings for locations.B. Sanded Epoxy Grout: ANSI A118.3 chemical resistant and water-cleanable epoxy grout.
1. Applications: Where indicated.2. Color(s): As indicated on drawings.3. Locations: As indicated on drawings.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify that subfloor surfaces are smooth and flat within the tolerances specified for that type ofwork and are ready to receive tile.
B. Verify that subfloor surfaces are dust free and free of substances that could impair bonding ofsetting materials to subfloor surfaces.
3.02 PREPARATIONA. Protect surrounding work from damage.B. Vacuum clean surfaces and damp clean.C. Seal substrate surface cracks with filler. Level existing substrate surfaces to acceptable
flatness tolerances.D. Prepare substrate surfaces for adhesive installation in accordance with adhesive manufacturer's
instructions.3.03 INSTALLATION - GENERAL
A. Lay tile to pattern indicated. Do not interrupt tile pattern through openings.B. Place tile joints uniform in width, subject to variance in tolerance allowed in tile size. Make grout
joints without voids, cracks, excess mortar or excess grout, or too little grout.C. Form internal angles square and external angles bullnosed.D. Install non-ceramic trim in accordance with manufacturer's instructions.E. Sound tile after setting. Replace hollow sounding units.F. Prior to grouting, allow installation to completely cure; minimum of 48 hours.G. Grout tile joints unless otherwise indicated.
3.04 CLEANINGA. Clean tile and grout surfaces.
3.05 PROTECTIONA. Do not permit traffic over finished floor surface for 4 days after installation.
1.03 REFERENCE STANDARDSA. ASTM C635/C635M - Standard Specification for the Manufacture, Performance, and Testing of
Metal Suspension Systems for Acoustical Tile and Lay-in Panel Ceilings; 2017.B. ASTM C636/C636M - Standard Practice for Installation of Metal Ceiling Suspension Systems for
Acoustical Tile and Lay-In Panels; 2013.C. ASTM E580/E580M - Standard Practice for Installation of Ceiling Suspension Systems for
Acoustical Tile and Lay-in Panels in Areas Subject to Earthquake Ground Motions; 2017.D. ASTM E1264 - Standard Classification for Acoustical Ceiling Products; 2014.
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide data on suspension system components and acoustical units.C. Evaluation Service Reports: Show compliance with specified requirements.D. Manufacturer's Installation Instructions: Indicate special procedures and perimeter conditions
requiring special attention.PART 2 PRODUCTS2.01 MANUFACTURERS
A. Acoustic Tiles/Panels:1. Armstrong World Industries, Inc: www.armstrong.com/#sle.2. Substitutions: See Section 01 6000 - Product Requirements.
B. Suspension Systems:1. Same as for acoustical units.
2.02 ACOUSTICAL UNITSA. Acoustical Units - General: ASTM E1264, Class A.B. Acoustical Panels: Mineral fiber with scrubbable finish, with the following characteristics:
1. Classification: ASTM E1264 Type IX.2. Size: 24 by 48 inch (610 by 1219 mm).3. Thickness: 5/8 inches (16 mm).4. Panel Edge: Square.5. Color: As indicated on drawings.6. Suspension System: Exposed grid.7. Location: over food service areas area8. Products:
a. Armstrong, Ultima Health Zone.b. Substitutions: See Section 01 6000 - Product Requirements.
C. Acoustical Panels: Painted mineral fiber, ASTM E1264 Type III, with the followingcharacteristics:1. Size(s): As indicated on drawings.
2. Light Reflectance: 87 percent, determined in accordance with ASTM E1264.3. Edge: Tegular.4. Surface Color: As indicated on drawings.5. Surface Pattern: Beveled.6. Location: As indicated on drawings.7. Suspension System: Exposed grid.
2.03 SUSPENSION SYSTEM(S)A. Metal Suspension Systems - General: Complying with ASTM C635/C635M; die cut and
interlocking components, with perimeter moldings, hold down clips, stabilizer bars, clips, andsplices as required.
B. Exposed Steel Suspension System: Formed steel, commercial quality cold rolled; heavy-duty.1. Finish: White painted.
2.04 ACCESSORIESA. Support Channels and Hangers: Galvanized steel; size and type to suit application, seismic
requirements, and ceiling system flatness requirement specified.B. Hanger Wire: 12-gage 0.08 inch (2 mm) galvanized steel wire.C. Hold-Down Clips: Manufacturer's standard clips to suit application.D. Seismic Clips: Manufacturer's standard clips for seismic conditions and to suit application.E. Touch-up Paint: Type and color to match acoustical and grid units.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify existing conditions before starting work.B. Verify that layout of hangers will not interfere with other work.
3.02 PREPARATIONA. Install after major above-ceiling work is complete.B. Coordinate the location of hangers with other work.
3.03 INSTALLATION - SUSPENSION SYSTEMA. Install suspension system in accordance with ASTM C636/C636M, ASTM E580/E580M, and
manufacturer's instructions and as supplemented in this section.B. Rigidly secure system, including integral mechanical and electrical components, for maximum
deflection of 1:360.C. Locate system on room axis according to reflected plan.D. Suspension System, Non-Seismic: Hang suspension system independent of walls, columns,
ducts, pipes and conduit. Where carrying members are spliced, avoid visible displacement offace plane of adjacent members.
E. Where ducts or other equipment prevent the regular spacing of hangers, reinforce the nearestaffected hangers and related carrying channels to span the extra distance.
F. Do not support components on main runners or cross runners if weight causes total dead loadto exceed deflection capability.
G. Support fixture loads using supplementary hangers located within 6 inches (152 mm) of eachcorner, or support components independently.
H. Do not eccentrically load system or induce rotation of runners.3.04 INSTALLATION - ACOUSTICAL UNITS
A. Install acoustical units in accordance with manufacturer's instructions.B. Fit acoustical units in place, free from damaged edges or other defects detrimental to
C. Fit border trim neatly against abutting surfaces.D. Install acoustical units level, in uniform plane, and free from twist, warp, and dents.E. Cutting Acoustical Units:
1. Make field cut edges of same profile as factory edges.END OF SECTION
1.03 REFERENCE STANDARDSA. ASTM F1861 - Standard Specification for Resilient Wall Base; 2016.
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide data on specified products, describing physical and performance
characteristics; including sizes, patterns and colors available; and installation instructions.1.05 QUALITY ASSURANCE
A. Manufacturer Qualifications: Company specializing in manufacturing specified flooring withminimum three years documented experience.
1.06 DELIVERY, STORAGE, AND HANDLINGA. Protect roll materials from damage by storing on end.B. Do not double stack pallets.
PART 2 PRODUCTS2.01 RESILIENT BASE
A. Resilient Base: ASTM F1861, Type TS rubber, vulcanized thermoset; top set Style B, Cove.1. Manufacturers:
a. Roppe Corp: www.roppe.com/#sle.b. Substitutions: See Section 01 6000 - Product Requirements.
2. Height: 6 inch (150 mm) cove.3. Thickness: 0.125 inch (3.2 mm).4. Finish: Satin.5. Length: Roll.6. Color: As indicated on drawings.7. Accessories: Premolded external corners and internal corners.
2.02 ACCESSORIESA. Primers, Adhesives, and Seam Sealer: Waterproof; types recommended by base
manufacturer.PART 3 EXECUTION3.01 EXAMINATION
A. Verify that wall surfaces are smooth and flat within the tolerances specified for that type of work,are dust-free, and are ready to receive resilient base.
3.02 PREPARATIONA. Clean substrate.B. Apply primer as required to prevent "bleed-through" or interference with adhesion by substances
that cannot be removed. 3.03 INSTALLATION - GENERAL
A. Install in accordance with manufacturer's written instructions.
3.04 INSTALLATION - RESILIENT BASEA. Fit joints tightly and make vertical. Maintain minimum dimension of 18 inches (45 mm) between
joints.B. Miter internal corners. At external corners, use premolded units. At exposed ends, use
premolded units.C. Install base on solid backing. Bond tightly to wall and floor surfaces.D. Scribe and fit to door frames and other interruptions.
3.05 CLEANINGA. Remove excess adhesive from floor, base, and wall surfaces without damage.B. Clean in accordance with manufacturer's written instructions.
A. Fluid-applied flooring and base.1.02 RELATED REQUIREMENTS
A. Section 01 6116 - Volatile Organic Compound (VOC) Content Restrictions.B. Section 07 9200 - Joint Sealants: Sealing joints between fluid-applied flooring and adjacent
construction and fixtures.1.03 SUBMITTALS
A. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide data on specified products, describing physical and performance
characteristics; sizes, patterns and colors available.C. Samples: Submit two samples, 6 inch by 6 inch inch (150 by 150 mm) in size illustrating color
and pattern for each floor material for each color specified.D. Manufacturer's Installation Instructions: Indicate special procedures and perimeter conditions
requiring special attention.E. Maintenance Data: Include maintenance procedures, recommended maintenance materials,
procedures for stain removal, repairing surface, and suggested schedule for cleaning.F. Maintenance Materials: Furnish the following for Owner's use in maintenance of project.
1. See Section 01 6000 - Product Requirements, for additional provisions.2. Extra Top Coat Materials: 2 gallons (8 liters).
1.04 QUALITY ASSURANCEA. Manufacturer Qualifications: Company specializing in manufacturing products specified in this
section with minimum three years documented experience.B. Applicator Qualifications: Company specializing in performing the work of this section.
1. Minimum 3 years of documented experience.1.05 DELIVERY, STORAGE, AND HANDLING
A. Store resin materials in a dry, secure area.B. Store materials for three days prior to installation in area of installation to achieve temperature
stability.1.06 FIELD CONDITIONS
A. Maintain minimum temperature in storage area of 55 degrees F (13 degrees C).B. Store materials in area of installation for minimum period of 24 hours prior to installation.C. Maintain ambient temperature required by manufacturer 72 hours prior to, during, and 24 hours
after installation of materials.PART 2 PRODUCTS2.01 MANUFACTURERS
A. Fluid-Applied Flooring:1. Basis of Design: Stonhard, www.stonhard.com.2. Approved Alternate: TufCo: www.tufco.com3. Approved Alternate: Dur-a-flex: www.duraflex.com
2.02 FLUID-APPLIED FLOORING SYSTEMSA. Fluid-Applied Flooring: Epoxy base coat(s), polyurethane top coat, no aggregate.
2. Sheen: Matte.3. Color: As indicated on drawings.4. Basis of Design Product: Stonhard.5. Products:
a. System Characteristics:1) Color and Pattern: Selected by Architect2) Wearing Surface: Medium texture3) Integral Cove Base: 6"4) Overall System Thickness: nominal 3/16-1/4”.
b. System Components: Manufacturer's standard components that are compatible witheach other and as follows:1) Mortar:
(a) Material design basis: Flagstone(b) Resin: Urethane.(c) Formulation Description: (4) four-component, 100 percent solids.(d) Application Method: Screed, Trowel.(e) Thickness of Coats: 3/16”.(f) Number of Coats: One.
2) Top coat:(a) Material design basis: UT Sealer(b) Resin: Urethane.(c) Formulation Description: (2) two-component, 100 percent solids.(d) Type: pigmented.(e) Finish: standard.(f) Number of Coats: One.
c. Note: Components listed above are the basis of design intent; all bids will becompared to this standard including resin chemistry, color, wearing surface,thickness, and installation procedures, including number of coats. Contractor shall berequired to comply with all the requirements of the Specifications and all of thecomponents required by the Specifications, whether or not such products arespecifically listed above.1) System Physical Properties: Provide resinous flooring system with the following
minimum physical property requirements when tested according to test methodsindicated:(a) Subparagraphs below are examples only and are based on test methods
required in ASTM C 722 and manufacturers' literature. Manufacturers'testing procedures differ; revise test methods indicated and insert additionalrequirements to suit Project.
(b) Compressive Strength: 7,700 psi after 7 days per ASTM C 579.(c) Tensile Strength: 1,000 psi per ASTM C 307.(d) Flexural Strength: 2,400 psi per ASTM C 580.(e) Water Absorption: < 1% per ASTM C 413.(f) Impact Resistance: > 160 in. lbs. per ASTM D 2794.(g) If needed, insert, in first subparagraph below, requirements for extent of
burning.(h) Flammability: Class 1 per ASTM E-648.(i) Hardness: 80 to 84, Shore D per ASTM D 2240.
d. Stonhard: www.stonhard.com .e. Substitutions: See Section 01 6000 - Product Requirements.
2.03 ACCESSORIESA. Primer: Type recommended by fluid-applied flooring manufacturer.B. Pitching and Leveling: Use a four component fast setting Urethane grout. Moisture resistant
polyurethane based grout designed for permanent repairs under flooring system. Basis ofDesign: Stonhard, Stonclad-UT.
C. Transition Strips Basis of Design1. Manufacturer: See Finish Schedule2. Color: See Finish Schedule3. Substitutions: See Section 01 6000 - Product Requirements.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify that subfloor surfaces are smooth and flat within the tolerances specified for that type ofwork and are ready to receive flooring.
B. Verify that wall surfaces are smooth and flat within the tolerances specified for that type of work,are dust-free, and are ready to receive flooring.
C. Verify that subfloor surfaces are dust-free and free of substances that could impair bonding ofmaterials to subfloor surfaces.
D. Cementitious Subfloor Surfaces: Verify that substrates are ready for fluid-applied flooringinstallation by testing for moisture and alkalinity (pH).1. Obtain instructions if test results are not within limits recommended by fluid-applied flooring
manufacturer.E. Verify that required floor-mounted utilities are in correct location.
3.02 PREPARATIONA. General: Prepare and clean substrates according to resinous flooring manufacturer's written
instructions for substrate indicated. Provide clean, dry, and neutral Ph substrate for resinousflooring application.
B. Concrete Substrates: Provide sound concrete surfaces free of laitance, glaze, efflorescence,curing compounds, form-release agents, dust, dirt, grease, oil, and other contaminantsincompatible with resinous flooring.1. Mechanically prepare substrates as follows:
a. Shot-blast surfaces with an apparatus that abrades the concrete surface, contains thedispensed shot within the apparatus, and recirculates the shot by vacuum pickup.
b. Comply with ASTM C 811 requirements, unless manufacturer's written instructionsare more stringent.
2. Verify that concrete substrates have neutral Ph and that resinous flooring will adhere tothem. Perform tests recommended by manufacturer. Proceed with application only aftersubstrates pass testing.
3. Repair damaged and deteriorated concrete according to resinous flooring manufacturer'swritten recommendations.
C. Use patching and fill material to fill holes and depressions in substrates according tomanufacturer's written instructions.
D. Treat control joints and other nonmoving substrate cracks to prevent cracks from reflectingthrough resinous flooring according to manufacturer's written recommendations. Allowancesshould be included for Stonflex MP7 joint fill material, and CT5 concrete crack treatment.
E. Vacuum clean substrate.F. Apply primer to surfaces required by flooring manufacturer.
3.03 INSTALLATION - ACCESSORIESA. Install terminating cap strip at top of base; attach securely to wall substrate.
3.04 INSTALLATION - FLOORINGA. Apply in accordance with manufacturer's instructions.B. Apply each coat to minimum thickness indicated.C. Finish to smooth level surface.D. Slope to drains where required.
E. General: Apply components of resinous flooring system according to manufacturer's writteninstructions to produce a uniform, monolithic wearing surface of thickness indicated.1. Coordinate application of components to provide optimum adhesion of resinous flooring
system to substrate, and optimum intercoat adhesion.2. Cure resinous flooring components according to manufacturer's written instructions.
Prevent contamination during application and curing processes.3. At substrate expansion and isolation joints, provide joint in resinous flooring to comply with
resinous flooring manufacturer's written recommendations.a. Apply joint sealant to comply with manufacturer's written recommendations.
F. Apply primer where required by resinous system, over prepared substrate at manufacturer'srecommended spreading rate.
G. Integral Cove Base: Stonclad UR mortar, apply cove base mix to wall surfaces before applyingflooring. Apply according to manufacturer's written instructions and details including those fortaping, mixing, priming, troweling, sanding, of cove base. Round internal and external corners.1. Integral Cove Base: 6" inches high.
H. Mortar: Mix mortar material according to manufacturer's recommended procedures. Uniformlyspread mortar over substrate at manufacturer’s recommended height using specially designedtrowel and or Screed box. Broadcast desired light texture directly into mortar base. Field verifytexture needed
I. Apply topcoat in number of coats indicated for flooring system and at spreading ratesrecommended in writing by manufacturer.
J. Cove at vertical surfaces.3.05 TERMINATIONS
A. Chase edges to “lock” the flooring system into the concrete substrate along lines of termination.B. Penetration Treatment: Lap and seal the flooring system onto the perimeter of the penetrating
item by bridging over compatible elastomer at the interface to compensate for possiblemovement.
C. Trenches: Continue flooring system into trenches to maintain monolithic protection. Treat coldjoints to assure bridging of potential cracks.
D. Treat floor drains by chasing the flooring system to lock in place at point of termination3.06 JOINTS AND CRACKS
A. Treat control joints to bridge potential cracks and to maintain monolithic protection.B. Treat cold joints and construction joints to bridge potential cracks and to maintain monolithic
protection on horizontal and vertical surfaces as well as horizontal and vertical interfaces.C. Discontinue floor coating system at vertical and horizontal contraction and expansion joints by
installing backer rod and compatible sealant after coating installation is completed. Providesealant type recommended by manufacturer for traffic conditions and chemical exposures to beencountered
3.07 PROTECTIONA. Prohibit traffic on floor finish for 48 hours after installation.B. Barricade area to protect flooring until fully cured.
1.03 REFERENCE STANDARDSA. ASTM D1308 - Standard Test Method for Effect of Household Chemicals on Clear and
Pigmented Organic Finishes; 2002 (Reapproved 2013).B. ASTM E84 - Standard Test Method for Surface Burning Characteristics of Building Materials;
2018.1.04 SUBMITTALS
A. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide data on wall covering and adhesive.C. Samples: Submit two samples of wall covering, 6 by 6 inch (150 by 150 mm) in size illustrating
color, finish, and texture.D. Manufacturer's Installation Instructions: Indicate special procedures.
1.05 FIELD CONDITIONSA. Do not apply materials when surface and ambient temperatures are outside the temperature
ranges required by the adhesive or wall covering product manufacturer.B. Maintain these conditions 24 hours before, during, and after installation of adhesive and wall
covering.PART 2 PRODUCTS2.01 WALL COVERINGS
A. General Requirements:1. Surface Burning Characteristics: Flame spread/Smoke developed index of 25/50,
maximum, when tested in accordance with ASTM E84.B. Wall Covering - LVT
1. Manufacturer: Shawcontract; www.shawcontract.com2. Application: Direct glue.3. Color: As indicated on drawings.4. Pattern: As indicated on drawings5. Locations: As indicated on drawings6. Install per manufacturer's recommendations.
C. Wall Covering: Stainless Steel1. Thickness: 18 gauge2. Finish: As indicated on drawings3. Trim: Finish edges with stainless steel molding.4. Locations: As indicated on drawings
PART 3 EXECUTION3.01 EXAMINATION
A. Verify that substrate surfaces are prime painted and ready to receive work, and comply withrequirements of wall covering manufacturer.
B. Measure moisture content of surfaces using an electronic moisture meter. Do not apply wallcoverings if moisture content of substrate exceeds level recommended by wall coveringmanufacturer.
C. Verify flatness tolerance of surfaces does not vary more than 1/8 inch in 10 feet (3 mm in 3 m)nor vary at a rate greater than 1/16 inch/ft (1.5 mm/300 mm).
3.02 PREPARATIONA. Wash impervious surfaces with tetra-sodium phosphate, rinse and neutralize; wipe dry.B. Surface Appurtenances: Remove or mask electrical plates, hardware, light fixture trim,
escutcheons, and fittings prior to preparing surfaces or finishing.C. Surfaces: Correct defects and clean surfaces that affect work of this section. D. Vacuum clean surfaces free of loose particles.
3.03 INSTALLATIONA. Apply adhesive and wall covering in accordance with manufacturer's instructions.B. Apply wall covering smooth, without wrinkles, gaps or overlaps. Eliminate air pockets and
ensure full bond to substrate surface.C. Butt edges tightly.D. Remove excess adhesive while wet from seam before proceeding to next wall covering sheet.
Wipe clean with dry cloth.3.04 CLEANING
A. Clean wall coverings of excess adhesive, dust, dirt, and other contaminants.B. Reinstall wall plates and accessories removed prior to work of this section.
3.05 PROTECTIONA. Do not permit construction activities at or near finished wall covering areas.
A. Surface preparation.B. Field application of paints.C. Scope: Finish interior surfaces exposed to view, unless fully factory-finished and unless
otherwise indicated.D. Do Not Paint or Finish the Following Items:
1. Items factory-finished unless otherwise indicated; materials and products havingfactory-applied primers are not considered factory finished.
2. Items indicated to receive other finishes.3. Items indicated to remain unfinished.4. Fire rating labels, equipment serial number and capacity labels, bar code labels, and
operating parts of equipment.5. Floors, unless specifically indicated.6. Glass.7. Concealed pipes, ducts, and conduits.
1.03 REFERENCE STANDARDSA. MPI (APL) - Master Painters Institute Approved Products List; Master Painters and Decorators
Association; Current Edition.B. MPI (APSM) - Master Painters Institute Architectural Painting Specification Manual; Current
Edition.1.04 SUBMITTALS
A. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide complete list of products to be used, with the following information for
each:1. Manufacturer's name, product name and/or catalog number, and general product category
(e.g. "alkyd enamel").2. MPI product number (e.g. MPI #47).3. Cross-reference to specified paint system(s) product is to be used in; include description of
each system.C. Samples: Submit three paper "draw down" samples, 8-1/2 by 11 inches (216 by 279 mm) in
size, illustrating range of colors available for each finishing product specified.1. Where sheen is specified, submit samples in only that sheen.
1.05 QUALITY ASSURANCEA. Manufacturer Qualifications: Company specializing in manufacturing the products specified,
with minimum three years documented experience.1.06 DELIVERY, STORAGE, AND HANDLING
A. Deliver products to site in sealed and labeled containers; inspect to verify acceptability.B. Container Label: Include manufacturer's name, type of paint, brand name, lot number, brand
code, coverage, surface preparation, drying time, cleanup requirements, color designation, andinstructions for mixing and reducing.
C. Paint Materials: Store at minimum ambient temperature of 45 degrees F (7 degrees C) and amaximum of 90 degrees F (32 degrees C), in ventilated area, and as required by manufacturer'sinstructions.
1.07 FIELD CONDITIONSA. Do not apply materials when surface and ambient temperatures are outside the temperature
ranges required by the paint product manufacturer.B. Follow manufacturer's recommended procedures for producing best results, including testing of
substrates, moisture in substrates, and humidity and temperature limitations.C. Provide lighting level of 80 ft candles (860 lx) measured mid-height at substrate surface.
PART 2 PRODUCTS2.01 MANUFACTURERS
A. Provide paints and finishes used in any individual system from the same manufacturer; noexceptions. SEE FINISH SCHEDULE FOR ADDITIONAL INFORMATION.
B. Paints:1. Sherwin-Williams Company: www.sherwin-williams.com/#sle.
2.02 PAINTS AND FINISHES - GENERALA. Paints and Finishes: Ready mixed, unless intended to be a field-catalyzed paint.
1. Where MPI paint numbers are specified, provide products listed in Master PaintersInstitute Approved Product List, current edition available at www.paintinfo.com, forspecified MPI categories, except as otherwise indicated.
2. Provide paints and finishes of a soft paste consistency, capable of being readily anduniformly dispersed to a homogeneous coating, with good flow and brushing properties,and capable of drying or curing free of streaks or sags.
3. Supply each paint material in quantity required to complete entire project's work from asingle production run.
4. Do not reduce, thin, or dilute paint or finishes or add materials unless such procedure isspecifically described in manufacturer's product instructions.
B. Sheens: Provide the sheens specified; where sheen is not specified, sheen will be selectedlater by Architect from the manufacturer's full line.
C. Colors: See Finish Schedule.2.03 PAINT SYSTEMS - INTERIOR
A. Interior Surfaces to be Painted, Unless Otherwise Indicated: Including gypsum board and shopprimed steel.1. Two top coats and one coat primer.2. Top Coat(s): High Performance Architectural Interior Latex; MPI #138, 139, 140, or 141.3. Top Coat Sheen:
a. Satin: MPI gloss level 4; use this sheen for items subject to frequent touching byoccupants, including door frames and railings.
4. Primer: As recommended by top coat manufacturer for specific substrate.B. Medium Duty Door/Trim: For surfaces subject to frequent contact by occupants, including
metals:1. Medium duty applications include doors and door frames.2. Two top coats and one coat primer.3. Top Coat(s): DTM Acrylic.4. Top Coat Sheen:
a. Semi-Gloss: MPI gloss level 5; use this sheen at all locations.5. Primer: As recommended by top coat manufacturer for specific substrate.
C. Epoxy Coating:1. Number of coats: Two.2. Product Characteristics:
a. Comply with the performance requirements specified above for moderate exposure.3. Top Coat(s): Polyamide Epoxy; MPI #77.
4. Location: As indicated in Drawings.2.04 PRIMERS
A. Primers: Provide primers as required or recommended by manufacturer of top coats.2.05 ACCESSORY MATERIALS
A. Accessory Materials: Provide primers, sealers, cleaning agents, cleaning cloths, sandingmaterials, and clean-up materials as required for final completion of painted surfaces.
B. Patching Material: Latex filler.C. Fastener Head Cover Material: Latex filler.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify that surfaces are ready to receive work as instructed by the product manufacturer.B. Examine surfaces scheduled to be finished prior to commencement of work. Report any
condition that may potentially effect proper application.C. Test shop-applied primer for compatibility with subsequent cover materials.D. Measure moisture content of surfaces using an electronic moisture meter. Do not apply finishes
unless moisture content of surfaces are below the following maximums:1. Gypsum Wallboard: 12 percent.
3.02 PREPARATIONA. Clean surfaces thoroughly and correct defects prior to application.B. Prepare surfaces using the methods recommended by the manufacturer for achieving the best
result for the substrate under the project conditions.C. Remove or repair existing paints or finishes that exhibit surface defects.D. Remove or mask surface appurtenances, including electrical plates, hardware, light fixture trim,
escutcheons, and fittings, prior to preparing surfaces or finishing.E. Seal surfaces that might cause bleed through or staining of topcoat.F. Masonry:G. Gypsum Board: Fill minor defects with filler compound. Spot prime defects after repair.H. Metal Doors to be Painted: Prime metal door top and bottom edge surfaces.
3.03 APPLICATIONA. Apply products in accordance with manufacturer's written instructions and recommendations in
"MPI Architectural Painting Specification Manual".B. Do not apply finishes to surfaces that are not dry. Allow applied coats to dry before next coat is
applied.C. Apply each coat to uniform appearance in thicknesses specified by manufacturer.D. Dark Colors and Deep Clear Colors: Regardless of number of coats specified, apply as many
coats as necessary for complete hide.E. Sand wood and metal surfaces lightly between coats to achieve required finish.F. Vacuum clean surfaces of loose particles. Use tack cloth to remove dust and particles just prior
to applying next coat.G. Reinstall electrical cover plates, hardware, light fixture trim, escutcheons, and fittings removed
prior to finishing.3.04 CLEANING
A. Collect waste material that could constitute a fire hazard, place in closed metal containers, andremove daily from site.
SECTION 10 2800TOILET, BATH, AND LAUNDRY ACCESSORIES
PART 1 GENERAL1.01 SECTION INCLUDES
A. Commercial shower and bath accessories.1.02 RELATED REQUIREMENTS
A. Section 09 2116: Concealed supports for accessories, including in wall framing and plates.1.03 REFERENCE STANDARDS
A. ADA Standards - Americans with Disabilities Act (ADA) Standards for Accessible Design; 2010.B. ASTM A269/A269M - Standard Specification for Seamless and Welded Austenitic Stainless
Steel Tubing for General Service; 2015a (Reapproved 2019).C. ASTM A653/A653M - Standard Specification for Steel Sheet, Zinc-Coated (Galvanized) or
Zinc-Iron Alloy-Coated (Galvannealed) by the Hot-Dip Process; 2019a.D. ASTM A666 - Standard Specification for Annealed or Cold-Worked Austenitic Stainless Steel
Sheet, Strip, Plate, and Flat Bar; 2015.1.04 ADMINISTRATIVE REQUIREMENTS
A. Coordinate the work with the placement of internal wall reinforcement, concealed ceilingsupports, and reinforcement of toilet partitions to receive anchor attachments.
1.05 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Submit data on accessories describing size, finish, details of function, and
attachment methods.C. Samples: Submit two samples of each accessory, illustrating color and finish.D. Manufacturer's Installation Instructions: Indicate special procedures and conditions requiring
special attention.PART 2 PRODUCTS2.01 MANUFACTURERS
A. Commercial Toilet, Shower, and Bath Accessories:1. Basis of Design: Harney Hardware, Folding Shower Seat: www.harneyhardware.com2. American Specialties, Inc: www.americanspecialties.com/#sle.3. Bradley Corporation: www.bradleycorp.com/#sle.4. Bobrick: www.bobrick.5. Substitutions: Section 01 6000 - Product Requirements.
2.02 MATERIALSA. Accessories - General: Shop assembled, free of dents and scratches and packaged complete
with anchors and fittings, steel anchor plates, adapters, and anchor components for installation.1. Grind welded joints smooth.2. Fabricate units made of metal sheet of seamless sheets, with flat surfaces.
B. Stainless Steel Sheet: ASTM A666, Type 304.C. Stainless Steel Tubing: ASTM A269/A269M, Grade TP304 or TP316.D. Galvanized Sheet Steel: Hot-dipped galvanized steel sheet, ASTM A653/A653M, with
G90/Z275 coating.E. Fasteners, Screws, and Bolts: Hot dip galvanized; tamper-proof; security type.
B. Phenolic: Manufacturer's standard color.2.04 COMMERCIAL SHOWER AND BATH ACCESSORIES
A. Folding Shower Seat: Wall-mounted surface; welded tubular seat frame, structural supportmembers, hinges, and mechanical fasteners of Type 304 stainless steel, L-shaped, right handand L-shaped, left hand seat.1. Seat: Phenolic or polymeric composite one-piece seat or seat slats, of White color.2. Size: ADA Standards compliant.3. Provide left or right bench - see drawings for requirements
PART 3 EXECUTION3.01 EXAMINATION
A. Verify existing conditions before starting work.B. Verify exact location of accessories for installation.C. Verify that field measurements are as indicated on drawings.
3.02 PREPARATIONA. Deliver inserts and rough-in frames to site for timely installation.B. Provide templates and rough-in measurements as required.
3.03 INSTALLATIONA. Install accessories in accordance with manufacturers' instructions in locations indicated on
drawings.B. Install plumb and level, securely and rigidly anchored to substrate.C. Mounting Heights: As required by accessibility regulations, unless otherwise indicated.
3.04 PROTECTIONA. Protect installed accessories from damage due to subsequent construction operations.
1.03 REFERENCE STANDARDSA. ASTM E814 - Standard Test Method for Fire Tests of Penetration Firestop Systems; 2013a
(Reapproved 2017).B. FM (AG) - FM Approval Guide; current edition.C. NFPA 10 - Standard for Portable Fire Extinguishers; 2017.D. UL (DIR) - Online Certifications Directory; Current Edition.
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide extinguisher operational features.C. Shop Drawings: Indicate locations of cabinets and cabinet physical dimensions.D. Manufacturer's Installation Instructions: Indicate special criteria and wall opening coordination
requirements.E. Manufacturer's Certificate: Certify that products meet or exceed specified requirements.
1.05 FIELD CONDITIONSA. Do not install extinguishers when ambient temperature may cause freezing of extinguisher
ingredients.PART 2 PRODUCTS2.01 MANUFACTURERS
A. Fire Extinguishers:1. Ansul, a Tyco Business; : www.ansul.com/#sle.2. Fire Engineering Co.; www.fireenineeringcom.com.3. JL Industries; www.jlindustries.com4. Larsen's Manufacturing Co; www.larsensmfg.com/#sle.5. Substitutions: See Section 01 6000 - Product Requirements.
B. Fire Extinguisher Cabinets and Accessories:1. Ansul, a Tyco Business: www.ansul.com/#sle.2. Larsen's Manufacturing Co; AL 2409-6R or AL FS 2409-6R: www.larsensmfg.com/#sle.3. JL Industries; jlindustries.com.4. Substitutions: See Section 01 6000 - Product Requirements.
2.02 FIRE EXTINGUISHERSA. Fire Extinguishers - General: Comply with product requirements of NFPA 10 and applicable
codes, whichever is more stringent.1. Provide extinguishers labeled by UL (DIR) or FM (AG) for purpose specified and as
indicated.B. Multipurpose Dry Chemical Type Fire Extinguishers: Carbon steel tank, with pressure gauge.
1. Stored Pressure Operated: Deep Drawn.2. Class: A:B:C type.
3. Size: 10 pound (4.54 kg).4. Finish: Baked polyester powder coat, red color.5. Temperature range: Minus 65 degrees F (Minus 54 degrees C) to 120 degrees F (49
degrees C).2.03 FIRE EXTINGUISHER CABINETS
A. Fire Rating: Listed and labeled in accordance with ASTM E814 requirements for fire resistancerating of walls where being installed.
B. Fire Rated Cabinet Construction: One-hour fire rated.1. Steel; double wall or outer and inner boxes with 5/8 inch (15.9 mm) thick fire barrier
1. Size to accommodate accessories.2. Trim: Flat rolled edge, with 1-1/2 inch (____ mm) wide face.
D. Door: 0.036 inch (0.9 mm) metal thickness, reinforced for flatness and rigidity with lock andbreakable window access. Hinge doors for 180 degree opening with continuous piano hinge.
E. Door Glazing: Tempered glass, clear, 1/8 inch (3 mm) thick, and set in resilient channel glazinggasket.
F. Cabinet Mounting Hardware: Appropriate to cabinet, with pre-drilled holes for placement ofanchors.
G. Weld, fill, and grind components smooth.H. Finish of Cabinet Interior: White colored enamel.
2.04 ACCESSORIESA. Extinguisher Theft Alarm: Battery operated alarm, 10 second delay for disarming, activated by
opening cabinet door.B. Cabinet Signage: FIRE EXTINGUISHER.
PART 3 EXECUTION3.01 EXAMINATION
A. Verify existing conditions before starting work.B. Verify rough openings for cabinet are correctly sized and located.
3.02 INSTALLATIONA. Install in accordance with manufacturer's instructions.B. Secure rigidly in place.C. Place extinguishers in cabinets.
A. Foodservice equipment.1.02 RELATED REQUIREMENTS
A. Section 07 9200 - Joint Sealants: Sealing joints between equipment and adjacent walls, floors,and ceilings.
1.03 REFERENCE STANDARDSA. NSF 2 - Food Equipment; 2018.B. UL (DIR) - Online Certifications Directory; Current Edition.
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide data on appliances; indicate configuration, sizes, materials, finishes,
locations, and utility service connection locations, service characteristics, and wiring diagrams.C. Warranty: Submit manufacturer warranty and ensure forms have been completed in Owner's
name and registered with manufacturer.1.05 QUALITY ASSURANCE
A. Manufacturer Qualifications: Company specializing in manufacture of standard products of thetype specified.
1.06 DELIVERY, STORAGE, AND HANDLINGA. Store products clear of floor in a manner to prevent damage.B. Coordinate size of access and route to place of installation.
1.07 WARRANTYA. See Section 01 7800 - Closeout Submittals, for additional warranty requirements.B. Correct defective work of this section within a five year period after Date of Substantial
Completion.C. Provide five year manufacturer warranty for replacement or repair of scheduled equipment,
refrigerant and compressors, including disconnection and removal of defective unit, andconnection of replacement unit.
PART 2 PRODUCTS2.01 EQUIPMENT
A. Ceiling Mounted Demo Mirror1. Basis of Design: Eagle Group, CMM61, Ceiling Mounted Demo Mirror2. Substitutions: See Section 01 6000 - Product Requirements.
B. Equipment Schedule: As indicated on the Drawings.C. Installation Accessories: Provide rough-in hardware, supports and connections, attachment
devices, closure trim, and accessories as required for complete installation.2.02 FINISHES
A. Stainless Steel: No. 4 finish.PART 3 EXECUTION3.01 EXAMINATION
A. Verify that electric power is available and of the correct characteristics.
3.02 INSTALLATIONA. Install items in accordance with manufacturers' instructions.B. Insulate to prevent electrolysis between dissimilar metals.
3.03 ADJUSTINGA. Adjust equipment and apparatus to ensure proper working order and conditions.B. Remove and replace equipment creating excessive noise or vibration.
3.04 CLEANINGA. Remove masking or protective covering from stainless steel and other finished surfaces.B. Wash and clean equipment.C. Polish glass, plastic, hardware, accessories, fixtures, and fittings.
3.05 CLOSEOUT ACTIVITIESA. At completion of work, provide qualified and trained personnel to demonstrate operation of each
item of equipment and instruct Owner in operating procedures and maintenance.1. Test equipment prior to demonstration.
3.06 PROTECTIONA. Remove protective coverings from prefinished work.B. Protect finished work from damage.
A. Window shades and accessories.1.02 REFERENCE STANDARDS
A. ASTM D4674 - Standard Practice for Accelerated Testing for Color Stability of Plastics Exposedto Indoor Office Environments; 2002a (Reapproved 2010).
B. NFPA 701 - Standard Methods of Fire Tests for Flame Propagation of Textiles and Films; 2015.C. UL 325 - Standard for Door, Drapery, Gate, Louver, and Window Operators and Systems;
Current Edition, Including All Revisions.1.03 ADMINISTRATIVE REQUIREMENTS
A. Coordination:1. Where motorized shades are to be controlled by control systems provided under other
sections, coordinate the work with other trades to provide compatible products.2. Coordinate the work with other trades to provide rough-in of electrical wiring as required for
installation of hardwired motorized shades.B. Sequencing:
1. Do not fabricate shades until field dimensions for each opening have been taken.2. Do not install shades until final surface finishes and painting are complete.
1.04 SUBMITTALSA. See Section 01 3000 - Administrative Requirements, for submittal procedures.B. Product Data: Provide manufacturer's standard catalog pages and data sheets including
C. Shop Drawings: Include shade schedule indicating size, location and keys to details.D. Certificates: Manufacturer's documentation that line voltage components are UL listed or UL
color and pattern.F. Project Record Documents: Record actual locations of control systems and show
interconnecting wiring.G. Operation and Maintenance Data: List of all components with part numbers, sources of supply,
and operation and maintenance instructions; include copy of shop drawings.1.05 QUALITY ASSURANCE
A. Manufacturer Qualifications: Company specializing in manufacturing products specified in thissection, with not less than five years of documented experience.
1.06 DELIVERY, STORAGE, AND HANDLINGA. Deliver shades in manufacturer's unopened packaging, labeled to identify each shade for each
opening.B. Handle and store shades in accordance with manufacturer's recommendations.
1.07 FIELD CONDITIONSA. Do not install products under environmental conditions outside manufacturer's absolute limits.
1.08 WARRANTYA. See Section 01 7800 - Closeout Submittals, for additional warranty requirements.B. Provide manufacturer's warranty from Date of Substantial Completion, covering the following:
hardware and accessories.1. Drop: Regular roll.2. Size: Field verify.
B. Fabric: Non-flammable, color-fast, impervious to heat and moisture, and able to retain its shapeunder normal operation.1. Privacy Shades: Soften the light yet still reveal some details to the outside; moderate
privacy; Openness Factor approximately equal to 1 percent.2. Flammability: Pass NFPA 701 large and small tests.
C. Roller Tubes: As required for type of operation.1. Material: Extruded aluminum or galvanized steel; as required for shade location.2. Fabric Attachment: Utilize extruded channel in tube to accept vinyl spline welded to fabric
edge.3. Finish: Baked enamel; color from manufacturer's standards.
D. Hembars: Designed for weight requirements and adaptation to uneven surfaces, to maintainbottom of shade straight and flat.1. Style: Full wrap fabric covered bottom bar, flat profile with closed ends.
2.04 ACCESSORIESA. Safety bracket for all shades above 18’ 6”.B. Fascias: Size as required to conceal shade mounting.
1. Style: As indicated on drawings.2. Material and Color: To match shade.
C. Brackets and Mounting Hardware: As recommended by manufacturer for mountingconfiguration and span indicated.
D. Exterior Side Channels: As required in exterior applications for guiding and securing shadematerial.
E. Number Plates: Number each opening and shade. Provide aluminum number plates for eachshade unit and each opening. Fasten shade plate to the back of roller. Fasten opening plate onunexposed surface of the opening.
F. Fasteners: Non-corrosive, and as recommended by shade manufacturer.
C. Dimensional Tolerances: As recommended in writing by manufacturer.D. At openings requiring continuous multiple shade units with separate rollers, locate roller joints at
A. Examine finished openings for deficiencies that may preclude satisfactory installation.B. If substrate preparation is the responsibility of another installer, notify Architect of unsatisfactory
preparation before proceeding.C. Start of installation shall be considered acceptance of substrates.
3.02 PREPARATIONA. Prepare surfaces using methods recommended by manufacturer for achieving best result for
substrate under the project conditions.B. Coordinate with window installation and placement of concealed blocking to support shades.
3.03 INSTALLATIONA. Install in accordance with manufacturer's instructions and approved shop drawings, using
mounting devices as indicated.B. Installation Tolerances:
1. Maximum Offset From Level: 1/16 inch (1.5 mm).C. Replace shades that exceed specified dimensional tolerances at no extra cost to Owner.D. Adjust level, projection and shade centering from mounting bracket. Verify there is no
telescoping of shade fabric. Ensure smooth shade operation.3.04 CLEANING
A. Clean soiled shades and exposed components as recommended by manufacturer.B. Replace shades that cannot be cleaned to "like new" condition.
3.05 CLOSEOUT ACTIVITIES3.06 PROTECTION
A. Protect installed products from subsequent construction operations.B. Touch-up, repair or replace damaged products before Substantial Completion.
END OF SECTION
Bridgerland Technical College
320163 / Meat Services Remodel 22 0500 - 1 COMMON WORK RESULTS FOR PLUMBING
SECTION 220500 - COMMON WORK RESULTS FOR PLUMBING
PART 1 - GENERAL
1.1 RELATED DOCUMENTS
A. Drawings and general provisions of the Contract, including General and Supplementary
Conditions and Division 01 Specification Sections, apply to this Section.
1.2 SUMMARY
A. This Section includes the following:
1. Piping materials and installation instructions common to most piping systems.
2. Transition fittings.
3. Dielectric fittings.
4. Mechanical sleeve seals.
5. Sleeves.
6. Escutcheons.
7. Grout.
8. Equipment installation requirements common to equipment sections.
9. Painting and finishing.
10. Concrete bases.
11. Supports and anchorages.
12. Link Seal
1.3 DEFINITIONS
A. Finished Spaces: Spaces other than mechanical and electrical equipment rooms, furred spaces,
320163 / Meat Services Remodel 23 0900 - 1 BUILDING AUTOMATION SYSTEM
SECTION 230900 – BUILDING AUTOMATION SYSTEM
PART 1 - GENERAL 1.1 SCOPE OF WORK
A. The Facility Management and Control System (FMCS) Contractor shall furnish and install a fully integrated building automation system, incorporating direct digital control (DDC) for energy management, equipment monitoring and control as herein specified. The system shall include all required computer software and licenses, hardware, controllers, sensors, transmission equipment, system workstations, local panels, conduit, wire, installation, engineering, database and setup, supervision, commissioning, acceptance test, training, warranty service and, at the owner's option, extended warranty service. Licenses for all software shall be registered to Bridgerland Applied Technical College. Include all upgrades for a period of two years.
B. The system shall only employ BACnet or Lontalk communications in an open architecture
with the capabilities to support a multi-vendor environment. The software package shall be sold and promoted by at least three independent controls manufacturers. It shall include the provisions to load and execute the toolsets of each of the three manufacturers including commissioning, configuring and programming of each manufacturer’s equipment. The system shall be capable of integrating third party systems and utilizing the following standard protocols.
1. BACnet communication according to ASHRAE standard ANSI/ASHRAE 135-2004. 2. OPC server communications according to OPC Data Access 2.0 and Alarms and Events
1.0. 3. LonWorks communication using LonTalk protocol. 4. Modbus communication for integration to third party devices.
C. The FMCS shall be web based and shall provide total integration of the facility infrastructure
systems with user access to all system data either locally over a secure Intranet within the building or by remote access by a standard Web Browser over the Internet.
D. The FMCS shall demonstrate, with (3) proof sources, integration with HVAC industry open
standard protocols, including LonMark, BACnet, ModBus, OPC and Internet standard SQL database and HTTP / HTML / XML text formats.
E. The FMCS shall communicate to third party systems on this project including VFD's, boilers,
air handling systems, chillers, fuel systems, medical gas, air compressor, vacuum pumps, emergency generators, computer room units, transfer switches, fire-life safety systems and other building management related devices using any of the open, interoperable communication protocols referenced in Paragraph D.
F. All materials and equipment used shall be standard components, regularly manufactured with
standard part numbers and owners manuals for this and/or other systems. One of a kind, third party or custom integrations devices designed specially for this project will not be allowed.
1.2 RELATED WORK SPECIFIED ELSEWHERE:
A. Drawings and general provisions of the Contract, including General and supplementary Conditions and Division-1 specification sections, apply to work of this section.
Bridgerland Technical College
320163 / Meat Services Remodel 23 0900 - 2 BUILDING AUTOMATION SYSTEM
B. Products furnished but not installed under this section:
1. Valves, flow switches, flow sensors, thermowells and pressure taps to be installed under section 15000.
2. Automatic dampers to be installed under section 15000.
C. Coordination with electrical:
1. Installation of all line voltage power wiring by division 26. 2. Each motor starter provided under Division 26, shall be furnished with individual control
power transformer to supply 120 volt control power and auxiliary contacts (one N.O. and one N.C.) for use by this section.
1.3 QUALITY ASSURANCE
A. The system shall be furnished, engineered, and installed by the manufacturers' locally
authorized representative. The controls contractor shall have factory-trained technicians to provide instruction, routine maintenance, and emergency service within 24 hours upon receipt of request.
B. At the time of bid, all FMCS Application Specific Controllers and Programmable Equipment
Controllers shall be listed as follows:
1. Underwriters Laboratory, UL 916 2. FCC Regulation, Part 15, Class B
1.4 SUBMITTALS
A. Submit 6 complete sets of documentation in the following phased delivery schedule:
1. Valve and damper schedules 2. Equipment data cut sheets 3. System schematics, including:
a. sequence of operations b. point names c. point addresses d. point to point wiring e. interface wiring diagrams f. panel layouts g. system riser diagrams
4. AutoCAD compatible as-built drawings. 5. ATC Submittals shall be completed using HVAC Solution Software. AutoCAD files will be
accepted on components and systems which HVAC Solution does not support. The main Bulk of the submittals shall be submitted using HVAC Solution.
B. Upon project completion, submit operation and maintenance manuals, consisting of the
following:
1. Index sheet, listing contents in alphabetical order 2. Manufacturer's equipment parts list of all functional components of the system, disk of
system schematics, including wiring diagrams 3. Description of sequence of operations
Bridgerland Technical College
320163 / Meat Services Remodel 23 0900 - 3 BUILDING AUTOMATION SYSTEM
4. As-Built interconnection wiring diagrams 5. User’s documentation containing product, system architectural and programming
information. 6. Trunk cable schematic showing remote electronic panel locations, and all trunk data 7. List of connected data points, including panels to which they are connected and input
device (ionization detector, sensors, etc.) 8. Conduit routing diagrams 9. Copy of the warranty/guarantee 10. Operating and maintenance cautions and instructions 11. Recommended spare parts list
PART 2 - PRODUCTS 2.1 ACCEPTABLE MANUFACTURERS
A. The existing controls in this facility that will be interfaced with is Invensys by Utah-Yamas
Controls
2.2 The Facility Management Control System (FMCS) shall be comprised of a network of interoperable, stand-alone digital controllers. The FMCS shall incorporate LonWorks technology using Free Topology Transceivers (FTT-10), or BACnet MSTP485 or Ethernet in all unitary, terminal and other device controllers. The system shall include: A. Programmable Equipment Controllers (PEC’s) for control of primary mechanical systems and
distributed system applications. Controllers shall be fully programmable to create custom control solutions.
B. Network Area Controllers (NAC’s) for distributed system applications, databases and
networking functions. C. Application Specific Controllers (ASC’s) for control of VAV terminal units, Fan coil terminal
units, Unit Vent terminal units, Heat Pump units and other terminal equipment. D. Graphical User Interface (GUI), which includes the hardware and software necessary for a
user to interface with the control system and devices.
2.3 The controller network shall use twisted pair wiring or loop. The PEC and ASC network shall communicate at a minimum 78Kbps using BACnet or Lontalk. The GUI and NAC shall reside on an Ethernet backbone.
2.4 All components and controllers supplied under this contract shall be true “peer-to-peer”
communicating devices. 2.5 NETWORK AREA CONTROLLER (NAC)
A. The Network Area Controller (NAC) shall provide the interface between the field control devices, and provide global supervisory control functions over the control devices connected to the NAC. It shall be capable of executing application control programs to provide:
1. Calendar functions 2. Scheduling
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3. Trending 4. Alarm monitoring and routing 5. Time synchronization 6. Integration of LonWorks controller data 7. Integration of BACnet and MODBUS networks
B. The NAC shall provide multiple, concurrent user access to the system and support for ODBC or SQL. A database resident on the NAC shall be an ODBC-compliant database or must provide an ODBC data access mechanism to read and write data stored within it.
C. The NAC shall support standard Web browser access via the Intranet/Internet. It shall be capable of supporting multiple users, expandable to fifty.
D. The NAC shall provide alarm recognition, storage; routing, management, and analysis to supplement distributed capabilities of equipment or application specific controllers.
1. The NAC shall be able to route any alarm condition to any defined user location whether connected to a local network or remote via dial-up, telephone connection, or wide-area network.
2. Alarm generation shall be selectable for annunciation type and acknowledgement requirements including, but not limited to:
a. To alarm b. Return to normal c. To fault
3. Provide for the creation of an unlimited number of alarm classes for the purpose of routing types and or classes of alarms, i.e.: security, HVAC, Fire, etc.
4. Provide timed (schedule) routing of alarms by class, object, group, or node. 5. Provide alarm generation from binary object “runtime” and /or event counts for equipment
maintenance. The user shall be able to reset runtime or event count values with appropriate password control.
E. Alarms shall be annunciated in any of the following manners as user defined:
1. Screen message text 2. Email of the complete alarm message to multiple recipients. Provide the ability to route
and email alarms based on:
a. Day of week b. Time of day c. Recipient
3. Pagers via paging services that initiate a page on receipt of email message 4. Graphic with flashing alarm object(s) 5. Printed message, routed directly to a dedicated alarm printer 6. Cell phones
F. The following shall be recorded by the NAC for each alarm (at a minimum):
1. Time and date 2. Location (building, floor, zone, office number, etc.) 3. Equipment (air handler #, accessway, etc.) 4. Acknowledge time, date, and user who issued acknowledgement.
G. Defined users shall be given proper access to acknowledge any alarm, or specific types or classes of alarms defined by the user.
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H. A log of all alarms shall be maintained by the NAC and/or a server and shall be available for review by the user.
I. Provide a “query” feature to allow review of specific alarms by user defined parameters.
J. A separate log for system alerts (controller failures, network failures, etc.) shall be provided and available for review by the user.
K. An Error Log to record system errors shall be provided and available for review by the user.
L. Data Collection and Storage
1. The NAC shall collect data for any property of any object and store this data for future use.
2. The data collection shall be performed by log objects, resident in the NAC that shall have, at a minimum, the following configurable properties:
a. Designating the log as interval or deviation. b. For interval logs, the object shall be configured for time of day, day of week and the
sample collection interval. c. For deviation logs, the object shall be configured for the deviation of a variable to a
fixed value. This value, when reached, will initiate logging of the object. d. For all logs, provide the ability to set the maximum number of data stores for the log
and to set whether the log will stop collecting when full, or rollover the data on a first-in, first-out basis.
e. Each log shall have the ability to have its data cleared on a time-based event or by a user-defined event or action.
3. All log data shall be stored in a relational database in the NAC and the data shall be accessed from a standard Web Browser.
4. All log data, when accessed from a server, shall be capable of being manipulated using standard SQL statements.
5. All log data shall be available to the user in the following data formats:
a. HTML b. XML c. Plain Text d. Comma or tab separated values
6. The NAC shall have the ability to archive it’s log data either locally (to itself), or remotely to a server or other NAC on the network. Provide the ability to configure the following archiving properties, at a minimum:
a. Archive on time of day b. Archive on user-defined number of data stores in the buffer (size) c. Archive when buffer has reached it’s user-defined capacity
M. Provide and maintain an Audit Log that tracks all activities performed on the NAC. Provide the ability to specify a buffer size for the log and the ability to archive log based on time or when the log has reached it’s user-defined buffer size. Provide the ability to archive the log locally (to the NAC), to another NAC on the network, or to a server. For each log entry, provide the following data:
1. Time and date 2. User ID 3. Change or activity: i.e., Change setpoint, add or delete objects, commands, etc.
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N. The NAC shall have the ability to automatically backup its database. The database shall be backed up based on a user-defined time of day.
1. Copies of the current database and, at the most recently saved database shall be stored in the NAC. The age of the most recently saved database is dependent on the user-defined database save interval.
2. The NAC database shall be stored, at a minimum, in XML format to allow for user viewing and editing, if desired. Other formats are acceptable as well, as long as XML format is supported.
2.6 PROGRAMMABLE EQUIPMENT CONTROLLERS (PEC)
A. Programmable Equipment Controllers (PEC’s) shall be stand-alone, multi-tasking, real-time digital control processors.
B. The PEC’s shall communicate via BACnet communication according to ASHRAE standard
ANSI/ASHRAE 135-2004 or Lonworks FT110. C. The PEC must communicate peer-to-peer with all of the network application specific,
programmable controllers and third party LonMark devices. D. The PEC software database must be able to execute all of the specified mechanical system
controls functions. The programming software shall be able to bundle software logic to simplify control sequencing. All values, which make up the PID output value, shall be readable and modifiable at a workstation or portable service tool. Each input, output, or calculation result shall be capable of being shared/bound with any controller or interface device on the network.
E. Provide programming, engineering, and configuration tools used for the project duly licensed
to the owner for owner’s use. F. PEC’s shall be able to execute custom, job-specific processes defined by the user, to
automatically perform calculations and special control routines. G. A single process shall be able to incorporate measured or calculated data from any and all
other PEC’s on the network. In addition, a single process shall be able to issue commands to points in any and all other PEC’s on the network.
H. Each PEC shall support firmware upgrades without the need to replace hardware. I. Each PEC shall continuously perform self-diagnostics, which include communication
diagnosis and diagnosis of all components. J. In the event of the loss of normal power, there shall be an orderly shutdown of all PEC’s to
prevent the loss of database or operating system software. Non-volatile memory shall be incorporated for all critical controller configuration data and battery backup shall be provided to support the real-time clock and all volatile memory for a minimum of 72 hours.
1. Upon restoration of normal power, the PEC shall automatically resume full operation
without manual intervention. 2. All PEC’s control programming and databases must be stored in Flash memory, therefore
eliminating data loss, downtime and re-load time.
K. Provide a separate PEC for each AHU or other HVAC system such that the inputs, calculations, and outputs shall reside on a single controller.
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2.7 APPLICATION SPECIFIC CONTROLLERS (ASC) A. Each Application Specific Controller (ASC) shall operate as a stand-alone Lon Mark or
BacNet controller capable of performing its specified control responsibilities independent of other controllers in the network. Each ASC shall be a minimum 16-BIT microprocessor based, multi-tasking, multi-user, real time digital control processor.
B. Controllers shall include all inputs and outputs necessary to perform the specified control
sequences. Analog and digital outputs shall be industry standard signals such as 0-10V and 3-point floating control allowing for interface to a variety of industry standard modulating actuators. The ASC inputs and outputs shall consist of industry standards types. Inputs shall be electrically isolated from outputs, communications and power.
C. All controller sequences and operation shall provide closed loop control of the intended
application. Closing control loops over the network is not acceptable. D. The control program shall reside in the ASC. The application program and the configuration
information shall be stored in non-volatile memory with no battery back-up required.
E. After a power failure the ASC must run the control application using the current setpoints and configuration. Reverting to default or factory setpoints are not acceptable.
2.8 GRAPHICAL USER INTERFACE SOFTWARE (GUI)
A. Command of points from multiple manufacturers shall be transparent to the operator. B. The software shall provide a multi-tasking type environment that allows the user to run
several applications simultaneously. The GUI software shall run on a Windows XP 32-bit operating system. The operator shall be able to work in Microsoft Word, Excel, and other Windows based software packages, while concurrently annunciating on-line FMCS alarms and monitoring information. If the software is unable to display several different types of displays at the same time, the FMCS contractor shall provide at least two operator workstations at each location specified.
C. Real-Time Displays. The Graphical User Interface (GUI), shall at a minimum, support the
following graphical features and functions:
1. Graphic screens shall be developed using any drawing package capable of generating a GIF, BMP, or JPG file format. Use of proprietary graphic file formats shall not be acceptable. In addition to, or in lieu of a graphic background, the GUI shall support the use of scanned pictures and streaming video.
2. Provide programming, engineering, and configuration tools used for the project duly licensed to the owner for owner’s use.
3. A gallery of HVAC and automation symbols shall be provided, including fans, valves, motors, chillers, AHU systems, standard ductwork diagrams and symbols. The user shall have the ability to add custom symbols to the gallery as required.
4. Graphic screens shall contain objects for text, real-time values, animation, color spectrum objects, logs, graphs, HTML or XML document links, schedule objects, hyperlinks to other URL’s, and links to other graphic screens.
5. Graphics shall include layering and each graphic object shall be configurable for assignment to a layer. A minimum of six layers shall be supported.
6. Modifying common application objects, such as schedules, calendars, and set points shall be accomplished in a graphical manner.
a. Schedule times will be adjusted by mouse command using a graphical slider, without requiring any keyboard entry from the operator.
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b. Holidays shall be set by mouse command using a graphical calendar, without requiring any keyboard entry from the operator.
7. Commands to start and stop binary objects shall be done by mouse command from the pop-up menu. No entry of text shall be required.
D. System Configuration. At a minimum, the GUI shall permit the operator to perform the following tasks, with proper password access:
1. Create, delete or modify control strategies. 2. Add/delete objects to the system. 3. Tune control loops through the adjustment of control loop parameters. 4. Enable or disable control strategies. 5. Generate hard copy records or control strategies on a printer. 6. Select points to be alarmable and define the alarm state. 7. Select points to be trended over a period of time and initiate the recording of values
automatically.
E. On-Line Help. Provide a context sensitive, on-line help system to assist the operator in operation and editing of the system. On-line help shall be available for all applications and shall provide the relevant data for that particular screen. Additional help information shall be available through the use of hypertext. All system documentation and help files shall be in HTML format.
F. Each operator shall be required to log on to that system with a user name and password in order to view, edit, add, or delete data. System security shall be selectable for each operator. The system administrator shall have the ability to set passwords and security levels for all other operators. Each operator password shall be able to restrict the operators’ access for viewing and/or changing each system application, full screen editor, and object. Each operator shall automatically be logged off of the system if no keyboard or mouse activity is detected. This auto log-off time shall be set per operator password. All system security data shall be stored in an encrypted format.
G. All graphic displays shall be provided using web browser client as specified in 2.11.
H. The system will be provided with a dedicated alarm window or console. This window will notify the operator of an alarm condition, and allow the operator to view details of the alarm and acknowledge the alarm. The use of the Alarm Console can be enabled or disabled by the system administrator.
I. When the Alarm Console is enabled, a separate alarm notification window will supercede all other windows on the desktop. This window will notify the operator of new alarms and un-acknowledged alarms. Alarm notification windows or banners that can be minimized or closed by the operator shall not be acceptable. The alarm console shall be loaded and operated at the following locations.
2.9 WEB BROWSER CLIENTS
A. The system shall be capable of supporting an unlimited number of clients using a standard
Web browser such as Internet Explorer or Netscape Navigator. Systems requiring additional software (to enable a standard Web browser) to be resident on the client machine, or manufacture-specific browsers shall not be acceptable.
B. The Web browser software shall run on any operating system and system configuration that is supported by the Web browser. Web page access and control shall be from system Network Area Controllers, or the Workstation.
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C. The Web browser shall provide the same system view, in terms of graphics, schedules,
calendars, logs, etc., and provide the same interface methodology as is provided by the Graphical User Interface. Systems that require different views or that require different means of interacting with objects such as schedules, or logs, shall not be permitted.
D. The Web browser client shall support at a minimum, the following functions:
1. User log-on identification and password security shall be required and implemented using Java authentication and encryption techniques to prevent unauthorized access. If an unauthorized user attempts access, a blank web page shall be displayed.
2. Graphical screens developed for the GUI shall be the same screens used for the Web browser client. Any animated graphical objects supported by the GUI shall be supported by the Web browser interface.
3. HTML programming shall not be required to display system graphics or data on a Web page. HTML editing of the Web page shall be allowed if the user desires a specific look or format.
4. Storage of the graphical screens shall be in the Network Area Controller (NAC), without requiring any graphics to be stored on the client machine. Systems that require graphics storage on each client machine are not acceptable.
5. Real-time values displayed on a Web page shall update automatically without requiring a manual “refresh” of the Web page.
6. Users shall have administrator-defined access privileges. Depending on the access privileges assigned, the user shall be able to perform the following:
a. Modify in a graphical manner, common application objects, such as schedules, calendars, and set points. Schedule times will be adjusted by mouse command using a graphical slider, without requiring any keyboard entry from the operator. Holidays shall be set by mouse command using a graphical calendar, without requiring any keyboard entry from the operator.
b. Commands to start and stop binary objects shall be done by mouse command right-click of the selected object and selecting the appropriate command from the pop-up menu. No entry of text shall be required.
c. View logs and charts d. View and acknowledge alarms
7. The system shall provide the capability to specify a user’s home page (as determined by the log-on user identification). From the home page, links to other views, or pages in the system shall be possible, if allowed by the system administrator.
8. Graphic screens on the Web Browser client shall support hypertext links to other locations on the Internet or on Intranet sites, by specifying the Uniform Resource Locator (URL) for the desired link.
2.10 PROJECT SPECIFIC WEB PAGES:
A. Home page shall include a campus layout of the individual buildings at the site. Once an individual building is selected the following minimum web-based tree structure shall be provided:
1. Documents Page: The document page shall include the O&M Manuals for the control
system in PDF format along with AutoCAD drawings for each drawing provided in the control system O&M Manual. This document page shall include links between the control diagrams and associated data sheet in PDF format, such that the system user shall be able to click on the control device and retrieve, in PDF format, the factory O&M sheets associated with that device.
2. Station Functions:
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a. Logging separate sheet of station functions for a particular selected building shall be
the viewing of one or more logs or the creation of logs in which any value at any point, or the mode of any point, shall be selected via the web to be trended against any other point with an adjustable frequency in seconds, minutes, hours or days.
b. The alarm acknowledgement via the web shall allow the viewing and acknowledgement of the alarms.
c. Audit log shall be provided via the web to show the operator actions as well as other audit logs as specified in section 2.4 Network Area Controller (NAC) paragraph “M” Data Collection and Storage.
3. Floor Plans:
a. AutoCAD drawings of floor plans shall be provided in the control system such that via
the web the user shall be able to turn layers on and off on the mechanical floor plans. These floor plans shall also include an overlay of the temperature control as-built wiring for the project showing thermostat locations, communication runs, transformer locations, controller locations, etc.
b. Floor Display Summaries. The operator shall be able to select floor plans displaying the following formats:
1) All zone temperatures 2) All zone heating percentages 3) All zone cooling percentages 4) All zone room names and numbers as per architectural matrix and owner input. 5) All zones cfm delivered.
4. Upon selecting a graphical floor plan layout the web page shall show all the zone
temperature sensor locations on the floor. By clicking on the zone temperature location, an individual VAV box graphic shall be displayed with the following attributes: a. A manual menu that shall allow the operator to manually set the air flow set point,
space temperature set point, damper position, cooling percentage, heating percentage, and zero the box.
b. A 24 hour log chart that shows space temperature history, flow history, and allows the operator to build custom charts by comparing this log to other associated selectable logs.
c. A display of the VAV box discharge temperature, air handler discharge temperature, space temperature, and space temperature set point.
d. A bar graph that shows actual CFM, current air flow, and current air floor set point, percentage of heating and cooling in a thermometer-like fashion and changes color based on heating or cooling mode.
e. The damper position, reheat valve position, occupancy status, room name and heating/cooling mode shall also be shown.
5. Systems:
a. On selecting the systems menu, a tree structure shall allow the operator to select the
air handlers, chillers, control valves, heat exchangers, med gas, boilers, fuel system, emergency generators and transfer switches, etc. systems associated with that building. The graphics shall also show the piping and ductwork associated with the air handler as well as the safeties, temperature sensors, humidity sensors, dampers, VFD’s, associated with that fan system. See points lists for specifics. Each system in the points list shall be treated as a branch of the above tree.
b. All devices that provide dynamic function in the primary equipment, i.e., fans, pumps, coils, dampers shall be dynamic in nature showing their operating status/percentage of capacity by movement on the web page.
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c. The set points for the various control loops shall be adjustable via the web page. Individual controlled devices, i.e., valves, dampers, fans shall be controlled via the web page and be stopped or started or placed in a command state or percentage of value output.
2.11 FIELD DEVICES
A. Provide automatic control valves, automatic control dampers, thermostats, clocks, sensors,
controllers, and other components as required for complete installation. Except as otherwise indicated, provide manufacturer’s standard control system components as indicated by published product information, designed and constructed as recommended by manufacturer.
B. Temperature Sensors
1. Temperature Sensors: Temperature sensors shall be linear precision elements with ranges appropriate for each specific application.
2. Space (room) sensors shall be available with setpoint adjustment and override switch. 3. Duct mounted averaging sensors shall utilize a sensing element incorporated in a copper
capillary with a minimum length of 20 feet. The sensor shall be installed according to manufacture recommendation and looped and fastened at a minimum of every 36 inches.
4. Sunshields shall be provided for outside air sensors. 5. Thermo-wells for all immersion sensors shall be stainless steel or brass as required for
the application.
C. Humidity Sensors: Humidity sensors shall be of the solid-state type using a capacitance-sensing element. The sensor shall vary the output voltage with a change in relative humidity.
Room humidity sensors shall have a minimum range of 10% to 90% ±5%. Supply air
humidity sensors shall have a range of 10% to 90% ± 5%.
D. Pressure Sensors: The differential pressure sensor shall be temperature compensated and shall vary the output voltage with a change in differential pressure. Sensing range shall be suitable for the application with linearity of 1.5% of full scale and offset of less than 1% of full scale. Sensor shall be capable of withstanding up to 150% of rated pressure without damage.
E. Flat plate (flush mount) temperature sensors shall be installed in public corridors, behavior
health and any other locations where gurneys and/or carts could damage sensors and where public access of setpoint is not desired.
F. Switches and Thermostats
1. The FMCS Contractor shall furnish all electric relays and coordinate with the supplier of
magnetic starters for auxiliary contact requirements. All electric control devices shall be of a type to meet current, voltage, and switching requirement of their particular application. Relays shall be provided with 24 VAC coils and contacts shall be rated at 10 amps minimum.
2. Duct Smoke Detectors: Duct smoke detectors shall be supplied by others with an integral auxiliary contact to be used by the FMCS contractor to provide a digital input to the FMCS.
3. Low Temperature Detection Thermostats: Shall be the manual reset type. The thermostat shall operate in response to the coldest one-foot length of the 20-foot sensing element, regardless of the temperatures at other parts of the element. The element shall be properly supported to cover the entire downstream side of the coil with a minimum of three loops. Separate thermostats shall be provided for each 25 square feet of coil face area or fraction thereof.
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4. Differential Pressure Switches: Pressure differential switches shall have SPDT changeover contact, switching at an adjustable differential pressure setpoint.
5. Current Sensing Relays: Motor status indications, where shown on the plans, shall be provided via current sensing relays. The switch output contact shall be rated for 30 VDC, .15 amps.
6. Flow Switches: Motor status indications, where shown on the plans, shall be provided via flow switches. Flow switches shall be of the paddle type equipped with SPDT contacts to establish proof of flow.
7. Carbon Monoxide Detector and Controller shall meet or exceed UL 2034 standard and OSHA standards for CO exposure. Controller shall be solid state sensor. Fan relay shall activate at 35 ppm of CO averaged over 5 minutes. Alarm relay shall activate at 100 ppm after 30 minutes. Approved manufacturers shall be Macurco, Inc or approved equal.
G. OSA Air Flow Measurement and Air Handler
1. The monitor/controller shall be capable of direct measurement of airflow through an
outside air inlet and produce dual outputs; one representing the measured airflow, and the other to control the inlet damper.
2. The monitor/controller shall contain an integral multi-line liquid crystal display for use during the configuration and calibration processes, and to display two measured processes (volume, velocity, temperature) during normal operation. All configuration, output scaling, calibration, and controller tuning will be performed digitally in the on-board microprocessor via input pushbuttons.
3. The monitor/controller shall measure inlet airflow with an accuracy of + or – 5% of reading over a range of 150-600 FPM or 250-1000 FPM or 500-3000 fpm and not have its reading affected by the presence of directional or gusting wind or turbulence. Measured airflow shall be density corrected for ambient temperature variances, and atmospheric pressure due to site altitude.
4. The monitor/controller shall interface with existing building automation systems (BAS), accepting inputs for fan system start, economizer mode operation, and an external controller set point, and provide flow deviation alarm outputs.
5. The sensors shall be constructed of materials that resist corrosion due to the presence of salt or chemicals in the air; all non-painted surfaces shall be constructed of stainless steel. The electronics enclosure shall be NEMA 1.
6. The monitor/controller shall be the VOLU-flo/OAM as manufactured by Air Monitor Corporation, Santa Rosa, California.
H. Supply Air and Return Air Monitoring
1. Provide supply air and return air flow monitoring. The monitor/controller shall be the
Veltron DPT 2500 Plus as manufactured by Air Monitor Corporation, Santa Rosa, California. ¼% Accurate, Automatic Zero, has display.
2. Provide Valupress/FI on fan inlets on supply air and return air.
I. Control Valves
1. General: Control Valves up to 4 inches shall be globe valves and shall be sized for a 3 to 5 psi pressure drop. Valves shall be packless, modulating, electrically or magnetically actuated, with a control rangeability of 100 to 1. These valves shall have equal percentage flow characteristics in relationship to valve opening.
2. ½ inch to 4 inch: Valves shall be equipped with handwheel, or manual position mounted dial adjacent to valve, to allow manual positioning of valve in absence of control power. (Valves with a rangeability of less than 200 to 1 shall utilize two valves in a 1/3 – 2/3 parallel arrangement in order to achieve control rangeability).
3. 4 inches to 6 inches: Valves for heating shall be globe valves modulating electrically actuated, 2-way or 3-way as required, with a rangeability of 50 to 1. Valve body shall be flanged and shall be equipped with a handwheel, or manual position dial mounted
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adjacent to the valve, to allow manual positioning of the valve in the absence of control power. Valves for cooling shall be butterfly with a rangeability of 25 to 1.
4. Butterfly Valves: 2-way and 3-way butterfly valves shall be cast iron valve body, with stainless steel stem, and available with disc seal for bubble-tight shut off.
5. Steam Valves: Valves shall have an ANSI Class 250 lb. body, teflon v-ring packing rated to 377ºF., stainless steel trim rated to 50 psi, with rangeability greater than 100:1, Class 4 leakage and close off rating, linear flow characteristics, via perforated throttling cylinder.
J. Damper Actuators
1. Actuators shall be of the push-pull or rotary type of modulating, 3-point floating, or 2-
position control as required by the application. The actuator shall use an overload-proof synchronous motor or an electric motor with end switches to de-energize the motor at the end of the stroke limits. Control voltage shall be 24 VAC, 0-20 VDC, or 4-20 ma as required. Actuators shall be available with spring return to the normal position when required. Actuators shall have a position indicator for external indication of damper position. Actuators shall have manual override capability without disconnecting damper linkage.
K. Control Dampers
1. Motorized dampers, unless otherwise specified elsewhere, shall have damper frames using 13 gauge galvanized steel channel or 1/8” extruded aluminum with reinforced corner bracing. Damper blades shall not exceed ten (10) inches in width or 48” in length. Blades are to be suitable for high velocity performance. Damper bearings shall be as recommended by manufacturer for application. Bushings that turn in the bearing are to be oil impregnated sintered metal. All blade edges and top and bottom of the frame shall be provided with replaceable, butyl rubber or neoprene seals. Side seals may be spring-loaded stainless steel. The seals shall provide a maximum of 1% leakage at a wide open face velocity of 1500 FPM and 4: W.C. close-off pressure. The damper linkage shall provide a linear flow or equal percentage characteristic as required. Provide Ruskin RCD46 model or equal.
2. Control dampers shall be parallel or opposed blade type as scheduled on drawings or outdoor and return air mixing box dampers shall be parallel blade, arranged to direct air streams towards each other. All other dampers may be parallel or opposed blade types.
2.12 O.R. & ISOLATION ROOM
A. Pressure Monitor for Isolation Room Locations: Active pressure monitor shall have a 4 digit LED display which accurately measures the pressure differential between two spaces. It shall be capable of measuring and alarming to within 0.5% of full scale and displaying the pressure to 0.0001 inches of water gauge. The active pressure monitor shall consist of a room sensor, a reference space sensor and a room pressure monitor panel. Range shall be .05" w.c.
2.13 LEVEL CONTROLLERS
A. Level controllers shall be Ultrasonic type that have the range of 6” to 24 feet. Accuracy shall be .25% of the span and resolution shall be 1/8”. They shall be rated for fluid temperature of –40 to +140 degrees F. The enclosure rating shall be NEMA 4X and shall be mounted on 2” NPT piping connection. They shall be temperature compensated over the above specified range. They shall be provided with a remote indicator to indicate the fluid level in feet and shall include remote relay pack for four levels of control: low level pump cutoff, low level warning, fill, and high level alarm. Remote readout shall include five-digit ID display with engineering units programmed to match the level of fluid being measured along with 11-point
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linearization function for display and actual tank volume in gallons, thousands of gallons, or percentage as directed by the Engineer. Remote meters shall also be manufactured by Flowline to be compatible with the Ultrasonc level transmitter. Controllers shall be Flowline Model LU30-70-0-3. Remote indication shall be Flowline model L112-1001.
2.14 PERSONAL COMPUTER OPERATOR WORKSTATION HARDWARE:
A. Personal computer operator workstations shall be provided for command entry, information management, network alarm management and database management functions. All real-time control functions shall be resident in the DDC controllers to facilitate greater fault tolerance and reliability.
1. Provide a workstation in the MIS (Main Computer Room). Confirm this location before
installation. 2. Workstations shall consist of an SVGA 19" flat screen color monitor, personal computer
with minimum 2 Gigabyte RAM, 100 GB hard drive, 48 speed DVD/RW, 3-1/2" diskette drive, mouse and 101-key enhanced keyboard. Personal computer shall be an IBM Compatible PC and shall include a minimum P4/3.1 MHZ processor.
B. Provide an Epson FX-870 or equivalent printer at the workstation's location for recording
alarms, operator transactions, and systems reports.
PART 3 - EXECUTION 3.1 PROJECT MANAGEMENT
A. Provide a project manager who shall, as a part of his duties, be responsible for the following activities:
1. Coordination between the Controls Contractor and all other trades, Owner, local
authorities and the design team. 2. Scheduling of manpower, material delivery, equipment installation and checkout. 3. Maintenance of construction records such as project scheduling and manpower planning
and AutoCAD or Visio for project co-ordination and as-built drawings. 4. Coordination/Single point of contact
3.2 INSTALLATION METHODS
A. Install systems and materials in accordance with manufacturer's instructions, rough-in drawings and equipment details. Install electrical components and use electrical products complying with requirements of applicable Division-16 sections of these specifications.
B. The term "control wiring" is defined to include providing of wire, conduit, and miscellaneous
materials as required for mounting and connecting electric or electronic control devices. C. To run BACnet on the ethernet network, the installer is required to run, at mininum, plenum
rated CAT 5e cabling for all runs associated with this network. D. All exposed wiring, low and line voltage subject to mechanical damage, shall be run in
conduit. Line and low voltage wiring shall be run in separate conduits. Concealed but accessible wiring, except in mechanical rooms and areas where other conduit and piping are exposed shall run in UL plenum rated cable as approved by local codes unless expressly restricted by requirements in Division 16 specification.
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320163 / Meat Services Remodel 23 0900 - 15 BUILDING AUTOMATION SYSTEM
E. All Controllers, Relays, Transducers, etc., required for stand-alone control shall be housed in
a NEMA 1 enclosure with a lockable door. 3.3 SYSTEM ACCEPTANCE
A. General: The system installation shall be complete and tested for proper operation prior to acceptance testing for the Owner's authorized representative. A letter shall be submitted to the Architect requesting system acceptance. This letter shall certify all controls are installed and the software programs have been completely exercised for proper equipment operation. Acceptance testing will commence at a mutually agreeable time within ten (10) calendar days of request. When the field test procedures have been demonstrated to the Owner's representative, the system will be accepted. The warranty period will start at this time.
B. Field Equipment Test Procedures: DDC control panels shall be demonstrated via a functional
end to end test. Such that:
1. All output channels shall be commanded (on/off, stop/start, adjust, etc.) and their operation verified.
2. All analog input channels shall be verified for proper operation. 3. All digital input channels shall be verified by changing the state of the field device and
observing the appropriate change of displayed value. 4. If a point should fail testing, perform necessary repair action and retest failed point and all
interlocked points. 5. Automatic control operation shall be verified by introducing an error into the system and
observing the proper corrective system response. 6. Selected time and setpoint schedules shall be verified by changing the schedule and
observing the correct response on the controlled outputs.
C. As-Built Documentation: After a successful acceptance demonstration, the Contractor shall submit as-built drawings of the completed project for final approval. After receiving final approval, supply "6" complete as-built drawing sets, together with AutoCAD or Visio diskettes to the owner.
D. Operation and Maintenance Manuals: Submit four copies of operation and maintenance
manuals. Include the following
1. Manufacturer's catalog data and specifications on sensors, transmitters, controllers, control valves, damper actuators, gauges, indicators, terminals, and any miscellaneous components used in the system.
2. An operator's manual that will include detailed instructions for all operations of the system.
3. An operator's reference table listing the addresses of all connected input points and output points. Settings shall be shown where applicable.
4. A copy of the warranty/guarantee. 5. Operating and maintenance cautions and instructions.
3.4 TRAINING
A. Contractor shall provide to the engineer a training class outline prior to any scheduled training.
B. Factory trained control engineers and technicians shall provide training sessions for the
Owner’s personnel.
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320163 / Meat Services Remodel 23 0900 - 16 BUILDING AUTOMATION SYSTEM
C. The control contractor shall conduct six (6) four-hour training courses for the designated owners personnel in the maintenance and operation of the control system. One class shall be given before system acceptance and the others monthly into the warranty/guarantee time period.
D. The course shall include instruction on specific systems and instructions for operating the
installed system to include as a minimum:
1. HVAC system overview 2. Operation of Control System 3. Function of each Component 4. System Operating Procedures 5. Programming Procedures 6. Maintenance Procedures
3.5 WARRANTY/GUARANTEE
A. The control system shall be warranted/guaranteed to be free from defects in both material and workmanship for a period of one (1) year of normal use and service. This warranty/guarantee shall become effective the date the owner accepts or receives beneficial use of the system.
B. After completion this contractor shall make adjustments and modification as necessary for the
one year warranty period. During this period the contractor as directed by the engineer shall make modifications and adjustments to the building systems at no additional cost or compensation.
ELECTRICAL 260519 LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES 260526 GROUNDING AND BONDING 260529 HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS 260533 RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS 260544 SLEEVES AND SLEEVE SEALS FOR ELECTRICAL RACEWAYS AND CABLING 260548 VIBRATION AND SEISMIC CONTROLS FOR ELECTRICAL SYSTEMS 260553 IDENTIFICATION FOR ELECTRICAL SYSTEMS 262726 WIRING DEVICES 262816 265100
ENCLOSED SWITCHES AND CIRCUIT BREAKERS INTERIOR LIGHTING
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END OF TABLE OF CONTENTS
Bridgerland Technical College
320163 / Meat Services Remodel 26 0519 - 1 LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES
SECTION 26 0519 LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES
PART 1 - GENERAL
1.01 SUMMARY A. Section Includes:
1. Building wires and cables rated 600 V and less. 2. Connectors, splices, and terminations rated 600 V and less.
1.02 CONDUCTOR MATERIAL APPLICATIONS A. Feeders: Copper for feeders smaller than No. 4 AWG; copper or aluminum for feeders No. 4 AWG and larger. Solid for
No. 10 AWG and smaller; stranded for No. 8 AWG and larger. B. Branch Circuits: Copper. Solid or Stranded for No. 10 AWG and smaller; stranded for No. 8 AWG and larger, except VFC
cable, which shall be extra flexible stranded.
1.03 CONDUCTOR INSULATION AND MULTICONDUCTOR CABLE APPLICATIONS AND WIRING METHODS A. Exposed Branch Circuits, Including in Crawlspaces: Type THHN-2-THWN-2, single conductors in raceway. B. Branch Circuits Concealed in Ceilings, Walls, and Partitions: Type THHN-2-THWN-2, single conductors in raceway. C. Branch Circuits Concealed in Concrete, below Slabs-on-Grade, and Underground: Type THHN-2-THWN-2, single
conductors in raceway.
1.04 INSTALLATION OF CONDUCTORS AND CABLES A. Conceal cables in finished walls, ceilings, and floors unless otherwise indicated. B. Complete raceway installation between conductor and cable termination points according to Section 26 0533 "Raceways
and Boxes for Electrical Systems" prior to pulling conductors and cables. C. Use manufacturer-approved pulling compound or lubricant where necessary; compound used must not deteriorate
conductor or insulation. Do not exceed manufacturer's recommended maximum pulling tensions and sidewall pressure values.
D. Use pulling means, including fish tape, cable, rope, and basket-weave wire/cable grips, that will not damage cables or raceway.
E. Install exposed cables parallel and perpendicular to surfaces of exposed structural members, and follow surface contours where possible.
F. Support cables according to Section 26 0529 "Hangers and Supports for Electrical Systems."
1.05 CONNECTIONS A. Tighten electrical connectors and terminals according to manufacturer's published torque-tightening values. If
manufacturer's torque values are not indicated, use those specified in UL 486A-486B. B. Make splices, terminations, and taps that are compatible with conductor material and that possess equivalent or better
mechanical strength and insulation ratings than unspliced conductors. 1. Use oxide inhibitor in each splice, termination, and tap for aluminum conductors.
C. Wiring at Outlets: Install conductor at each outlet, with at least 12 inches of slack.
1.06 IDENTIFICATION A. Identify and color-code conductors and cables according to Section 26 0553 "Identification for Electrical Systems." B. Identify each spare conductor at each end with identity number and location of other end of conductor, and identify as
spare conductor.
1.07 FIRESTOPPING A. Apply firestopping to electrical penetrations of fire-rated floor and wall assemblies to restore original fire-resistance rating of
assembly according to Section 07 8413 "Penetration Firestopping."
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320163 / Meat Services Remodel 26 0519 - 2 LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES
END OF SECTION
Bridgerland Technical College
320163 / Meat Services Remodel 26 0526 - 1 GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS
SECTION 26 0526 GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS
PART 1 - GENERAL
1.01 SUMMARY A. Section includes grounding and bonding systems and equipment. B. Section includes grounding and bonding systems and equipment.
1.02 QUALITY ASSURANCE A. Comply with UL 467 for grounding and bonding materials and equipment.
PART 2 - PRODUCTS
2.01 CONDUCTORS A. Insulated Conductors: Copper wire or cable insulated for 600 V unless otherwise required by applicable Code or
authorities having jurisdiction. B. Bare Copper Conductors:
1. Solid Conductors: ASTM B 3. 2. Stranded Conductors: ASTM B 8. 3. Bonding Conductor: No. 4 or No. 6 AWG, stranded conductor. 4. Bonding Jumper: Copper tape, braided conductors terminated with copper ferrules; 1-5/8 inches wide and 1/16 inch
2.02 CONNECTORS A. Listed and labeled by an NRTL acceptable to authorities having jurisdiction for applications in which used and for specific
types, sizes, and combinations of conductors and other items connected. B. Bolted Connectors for Conductors and Pipes: Copper or copper alloy. C. Welded Connectors: Exothermic-welding kits of types recommended by kit manufacturer for materials being joined and
installation conditions. D. Bus-Bar Connectors: Mechanical type, cast silicon bronze, solderless compression-type wire terminals, and long-barrel,
two-bolt connection to ground bus bar.
2.03 GROUNDING ELECTRODES A. Ground Rods: Copper-clad steel; 3/4 inch by 10 feet.
PART 3 - EXECUTION
3.01 APPLICATIONS A. Conductor Terminations and Connections:
1. Pipe and Equipment Grounding Conductor Terminations: Bolted connectors. 2. Underground Connections: Welded connectors except at test wells and as otherwise indicated. 3. Connections to Ground Rods at Test Wells: Bolted connectors. 4. Connections to Structural Steel: Welded connectors.
3.02 EQUIPMENT GROUNDING A. Install insulated equipment grounding conductors with all feeders and branch circuits.
3.03 INSTALLATION A. Ground Rods: Drive rods until tops are 2 inches below finished floor or final grade unless otherwise indicated. B. Bonding Straps and Jumpers: Install in locations accessible for inspection and maintenance except where routed through
short lengths of conduit.
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320163 / Meat Services Remodel 26 0526 - 2 GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS
1. Bonding to Structure: Bond straps directly to basic structure, taking care not to penetrate any adjacent parts. 2. Bonding to Equipment Mounted on Vibration Isolation Hangers and Supports: Install bonding so vibration is not
transmitted to rigidly mounted equipment. 3. Use exothermic-welded connectors for outdoor locations; if a disconnect-type connection is required, use a bolted
clamp.
END OF SECTION
Bridgerland Technical College
320163 / Meat Services Remodel 26 0529 - 1 HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS
SECTION 26 0529 HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS
PART 1 - GENERAL
1.01 SUMMARY A. This Section includes the following:
1. Hangers and supports for electrical equipment and systems.
1.02 DEFINITIONS A. EMT: Electrical metallic tubing. B. IMC: Intermediate metal conduit. C. RMC: Rigid metal conduit.
1.03 PERFORMANCE REQUIREMENTS A. Design supports for multiple raceways capable of supporting combined weight of supported systems and its contents. B. Design equipment supports capable of supporting combined operating weight of supported equipment and connected
systems and components. C. Rated Strength: Adequate in tension, shear, and pullout force to resist maximum loads calculated or imposed for this
Project, with a minimum structural safety factor of five times the applied force.
1.04 QUALITY ASSURANCE A. Comply with NFPA 70.
1.05 SUPPORT, ANCHORAGE, AND ATTACHMENT COMPONENTS A. Steel Slotted Support Systems: Comply with MFMA-4, factory-fabricated components for field assembly. B. Raceway and Cable Supports: As described in NECA 1 and NECA 101. C. Conduit and Cable Support Devices: Steel hangers, clamps, and associated fittings, designed for types and sizes of
raceway or cable to be supported. D. Structural Steel for Fabricated Supports and Restraints: ASTM A 36/A 36M, steel plates, shapes, and bars; black and
galvanized.
PART 2 - EXECUTION
2.01 APPLICATION A. Comply with NECA 1 and NECA 101 for application of hangers and supports for electrical equipment and systems except if
requirements in this Section are stricter. B. Maximum Support Spacing and Minimum Hanger Rod Size for Raceway: Space supports for EMT, IMC, and RMC as
scheduled in NECA 1, where its Table 1 lists maximum spacings less than stated in NFPA 70. Minimum rod size shall be 1/4 inch in diameter.
C. Spring-steel clamps designed for supporting single conduits without bolts may be used for 1-1/2-inch and smaller raceways serving branch circuits and communication systems above suspended ceilings and for fastening raceways to trapeze supports.
2.02 SUPPORT INSTALLATION A. Comply with NECA 1 and NECA 101 for installation requirements except as specified in this Article. B. Mounting and Anchorage of Surface-Mounted Equipment and Components: Anchor and fasten electrical items and their
supports to building structural elements by the following methods unless otherwise indicated by code: 1. To Wood: Fasten with lag screws or through bolts. 2. To New Concrete: Bolt to concrete inserts. 3. To Masonry: Approved toggle-type bolts on hollow masonry units and expansion anchor fasteners on solid masonry
units. 4. To Existing Concrete: Expansion anchor fasteners.
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320163 / Meat Services Remodel 26 0529 - 2 HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS
5. Instead of expansion anchors, powder-actuated driven threaded studs provided with lock washers and nuts may be used in existing standard-weight concrete 4 inches thick or greater. Do not use for anchorage to lightweight-aggregate concrete or for slabs less than 4 inches thick.
6. To Steel: Welded threaded studs complying with AWS D1.1/D1.1M, with lock washers and nuts. 7. To Light Steel: Sheet metal screws. 8. Items Mounted on Hollow Walls and Nonstructural Building Surfaces: Mount cabinets, panelboards, disconnect
switches, control enclosures, pull and junction boxes, transformers, and other devices on slotted-channel racks attached to substrate by means that meet seismic-restraint strength and anchorage requirements.
C. Drill holes for expansion anchors in concrete at locations and to depths that avoid reinforcing bars.
END OF SECTION 26 0529
Bridgerland Technical College
320163 / Meat Services Remodel 26 0533 - 1 RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS
SECTION 26 0533 RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS
GENERAL
1.01 SUMMARY A. Section Includes:
1. Metal conduits, tubing, and fittings. 2. Boxes, enclosures, and cabinets.
1.02 DEFINITIONS A. ARC: Aluminum rigid conduit. B. GRC: Galvanized rigid steel conduit. C. IMC: Intermediate metal conduit.
PRODUCTS
1.03 METAL CONDUITS, TUBING, AND FITTINGS A. Listing and Labeling: Metal conduits, tubing, and fittings shall be listed and labeled as defined in NFPA 70, by a qualified
testing agency, and marked for intended location and application. B. Fittings for Metal Conduit: Comply with NEMA FB 1 and UL 514B.
1. Conduit Fittings for Hazardous (Classified) Locations: Comply with UL 886 and NFPA 70. 2. Fittings for EMT:
a. Material: Steel. b. Type: Setscrew or compression.
C. Joint Compound for IMC, GRC, or ARC: Approved, as defined in NFPA 70, by authorities having jurisdiction for use in conduit assemblies, and compounded for use to lubricate and protect threaded conduit joints from corrosion and to enhance their conductivity.
1.04 BOXES, ENCLOSURES, AND CABINETS A. General Requirements for Boxes, Enclosures, and Cabinets: Boxes, enclosures, and cabinets installed in wet locations
shall be listed for use in wet locations. B. Sheet Metal Outlet and Device Boxes: Comply with NEMA OS 1 and UL 514A. C. Cast-Metal Outlet and Device Boxes: Comply with NEMA FB 1, ferrous alloy or aluminum, Type FD, with gasketed cover. D. Metal Floor Boxes:
1. Material: sheet metal. 2. Type: Fully adjustable or Semi-adjustable. 3. Shape: Rectangular. 4. Listing and Labeling: Metal floor boxes shall be listed and labeled as defined in NFPA 70, by a qualified testing
agency, and marked for intended location and application. E. Small Sheet Metal Pull and Junction Boxes: NEMA OS 1. F. Hinged-Cover Enclosures: Comply with UL 50 and NEMA 250, with continuous-hinge cover with flush latch unless
otherwise indicated.
EXECUTION
1.05 RACEWAY APPLICATION A. Outdoors: Apply raceway products as specified below unless otherwise indicated:
1. Exposed Conduit: GRC. 2. Concealed Conduit, Aboveground: GRC. 3. Underground Conduit: RNC, Type EPC-40-PVC,. 4. Connection to Vibrating Equipment (Including Transformers and Hydraulic, Pneumatic, Electric Solenoid, or Motor-
Driven Equipment): LFMC. B. Indoors: Apply raceway products as specified below unless otherwise indicated:
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320163 / Meat Services Remodel 26 0533 - 2 RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS
1. Exposed, Not Subject to Physical Damage: EMT. 2. Exposed and Subject to Physical Damage: GRC. Raceway locations include the following:
a. Loading dock. b. Corridors used for traffic of mechanized carts, forklifts, and pallet-handling units. c. Tunnels
3. Concealed in Ceilings and Interior Walls and Partitions: EMT. 4. Connection to Vibrating Equipment (Including Transformers and Hydraulic, Pneumatic, Electric Solenoid, or Motor-
Driven Equipment): FMC, except use LFMC in damp or wet locations. 5. Damp or Wet Locations: GRC. 6. Boxes and Enclosures: NEMA 250, Type 1, except use NEMA 250, Type 4 stainless steel in institutional and
commercial kitchens and damp or wet locations. C. Minimum Raceway Size: 3/4-inch trade size. D. Do not install aluminum conduits, boxes, or fittings in contact with concrete or earth.
1.06 INSTALLATION A. Comply with NECA 1 and NECA 101 for installation requirements except where requirements on Drawings or in this article
are stricter. Comply with NECA 102 for aluminum conduits. Comply with NFPA 70 limitations for types of raceways allowed in specific occupancies and number of floors.
B. Keep raceways at least 6 inches away from parallel runs of flues and steam or hot-water pipes. Install horizontal raceway runs above water and steam piping.
C. Complete raceway installation before starting conductor installation. D. Comply with requirements in Section 26 0529 "Hangers and Supports for Electrical Systems" for hangers and supports. E. Install no more than the equivalent of three 90-degree bends in any conduit run except for control wiring conduits, for which
fewer bends are allowed. Support within 24 inches of changes in direction. F. Conceal conduit and EMT within finished walls, ceilings, and floors unless otherwise indicated. Install conduits parallel or
perpendicular to building lines. G. Support conduit within 24 inches of enclosures to which attached. H. Threaded Conduit Joints, Exposed to Wet, Damp, Corrosive, or Outdoor Conditions: Apply listed compound to threads of
raceway and fittings before making up joints. Follow compound manufacturer's written instructions. I. Raceway Terminations at Locations Subject to Moisture or Vibration: Use insulating bushings to protect conductors
including conductors smaller than No. 4 AWG. J. Terminate threaded conduits into threaded hubs or with locknuts on inside and outside of boxes or cabinets. Install
bushings on conduits up to 1-1/4-inch trade size and insulated throat metal bushings on 1-1/2-inch trade size and larger conduits terminated with locknuts. Install insulated throat metal grounding bushings on service conduits.
K. Do not rely on locknuts to penetrate nonconductive coatings on enclosures. Remove coatings in the locknut area prior to assembling conduit to enclosure to assure a continuous ground path.
L. Flexible Conduit Connections: Comply with NEMA RV 3. Use a maximum of 72 inches of flexible conduit for equipment subject to vibration, noise transmission, or movement; and for transformers and motors. 1. Use LFMC in damp or wet locations.
M. Fasten junction and pull boxes to or support from building structure. Do not support boxes by conduits.
1.07 FIRESTOPPING A. Install firestopping at penetrations of fire-rated floor and wall assemblies. Comply with requirements in Section 07 8413
"Penetration Firestopping."
END OF SECTION 26 0533
Bridgerland Technical College
320163 / Meat Services Remodel 26 0544 - 1 SLEEVES AND SLEEVE SEALS FOR ELECTRICAL RACEWAYS AND CABLING
SECTION 26 0544
SLEEVES AND SLEEVE SEALS FOR ELECTRICAL RACEWAYS AND CABLING
PART 1 - GENERAL
1.01 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01
Specification Sections, apply to this Section.
1.02 SUMMARY A. Section Includes:
1. Sleeves for raceway and cable penetration of non-fire-rated construction walls and floors. 2. Sleeve-seal systems. 3. Sleeve-seal fittings. 4. Grout. 5. Silicone sealants.
PART 2 - PRODUCTS
2.01 SLEEVES A. Wall Sleeves:
1. Steel Pipe Sleeves: ASTM A 53/A 53M, Type E, Grade B, Schedule 40, zinc coated, plain ends. 2. Cast-Iron Pipe Sleeves: Cast or fabricated "wall pipe," equivalent to ductile-iron pressure pipe, with plain ends and
integral waterstop unless otherwise indicated. B. Sleeves for Conduits Penetrating Non-Fire-Rated Gypsum Board Assemblies: Galvanized-steel sheet; 0.6-mm (0.0239-
inch) minimum thickness; round tube closed with welded longitudinal joint, with tabs for screw-fastening the sleeve to the board.
C. Sleeves for Rectangular Openings: 1. Material: Galvanized sheet steel. 2. Minimum Metal Thickness:
a. For sleeve cross-section rectangle perimeter less than 1270 mm (50 inches) and with no side larger than 400 mm (16 inches), thickness shall be 1.3 mm (0.052 inch).
b. For sleeve cross-section rectangle perimeter 1270 mm (50 inches) or more and one or more sides larger than 400 mm (16 inches), thickness shall be 3.5 mm (0.138 inch).
2.02 SLEEVE-SEAL SYSTEMS A. Description: Modular sealing device, designed for field assembly, to fill annular space between sleeve and raceway or
cable. 1. Manufacturers: Subject to compliance with requirements, available manufacturers offering products that may be
incorporated into the Work include, but are not limited to, the following: a. Advance Products & Systems, Inc. b. CALPICO, Inc. c. Metraflex Company (The). d. Pipeline Seal and Insulator, Inc. e. Proco Products, Inc.
2. Sealing Elements: EPDM or Nitrile (Buna N) rubber interlocking links shaped to fit surface of pipe. Include type and number required for pipe material and size of pipe.
3. Pressure Plates: Carbon steel or Stainless steel. 4. Connecting Bolts and Nuts: Stainless steel of length required to secure pressure plates to sealing elements.
2.03 SLEEVE-SEAL FITTINGS A. Description: Manufactured plastic, sleeve-type, waterstop assembly made for embedding in concrete slab or wall. Unit
shall have plastic or rubber waterstop collar with center opening to match piping OD.
320163 / Meat Services Remodel 26 0544 - 2 SLEEVES AND SLEEVE SEALS FOR ELECTRICAL RACEWAYS AND CABLING
1. Manufacturers: Subject to compliance with requirements, available manufacturers offering products that may be incorporated into the Work include, but are not limited to, the following: a. Presealed Systems.
2.04 GROUT A. Description: Nonshrink; recommended for interior and exterior sealing openings in non-fire-rated walls or floors. B. Standard: ASTM C 1107/C 1107M, Grade B, post-hardening and volume-adjusting, dry, hydraulic-cement grout. C. Design Mix: 34.5-MPa (5000-psi), 28-day compressive strength. D. Packaging: Premixed and factory packaged.
2.05 SILICONE SEALANTS A. Silicone Sealants: Single-component, silicone-based, neutral-curing elastomeric sealants of grade indicated below.
1. Grade: Pourable (self-leveling) formulation for openings in floors and other horizontal surfaces that are not fire rated. 2. Sealant shall comply with the testing and product requirements of the California Department of Health Services'
"Standard Practice for the Testing of Volatile Organic Emissions from Various Sources Using Small-Scale Environmental Chambers."
B. Silicone Foams: Multicomponent, silicone-based liquid elastomers that, when mixed, expand and cure in place to produce a flexible, nonshrinking foam.
PART 3 - EXECUTION
3.01 SLEEVE INSTALLATION FOR NON-FIRE-RATED ELECTRICAL PENETRATIONS A. Comply with NECA 1. B. Comply with NEMA VE 2 for cable tray and cable penetrations. C. Sleeves for Conduits Penetrating Above-Grade Non-Fire-Rated Concrete and Masonry-Unit Floors and Walls:
1. Interior Penetrations of Non-Fire-Rated Walls and Floors: a. Seal annular space between sleeve and raceway or cable, using joint sealant appropriate for size, depth, and
location of joint. b. Seal space outside of sleeves with mortar or grout. Pack sealing material solidly between sleeve and wall so
no voids remain. Tool exposed surfaces smooth; protect material while curing. 2. Use pipe sleeves unless penetration arrangement requires rectangular sleeved opening. 3. Size pipe sleeves to provide 6.4-mm (1/4-inch) annular clear space between sleeve and raceway or cable unless
sleeve seal is to be installed or unless seismic criteria require different clearance. 4. Install sleeves for wall penetrations unless core-drilled holes or formed openings are used. Install sleeves during
erection of walls. Cut sleeves to length for mounting flush with both surfaces of walls. Deburr after cutting. 5. Install sleeves for floor penetrations. Extend sleeves installed in floors 50 mm (2 inches) above finished floor level.
Install sleeves during erection of floors. D. Sleeves for Conduits Penetrating Non-Fire-Rated Gypsum Board Assemblies:
1. Use circular metal sleeves unless penetration arrangement requires rectangular sleeved opening. 2. Seal space outside of sleeves with approved joint compound for gypsum board assemblies.
E. Roof-Penetration Sleeves: Seal penetration of individual raceways and cables with flexible boot-type flashing units applied in coordination with roofing work.
F. Aboveground, Exterior-Wall Penetrations: Seal penetrations using steel pipe sleeves and mechanical sleeve seals. Select sleeve size to allow for 25-mm (1-inch) annular clear space between pipe and sleeve for installing mechanical sleeve seals.
G. Underground, Exterior-Wall and Floor Penetrations: Install cast-iron pipe sleeves. Size sleeves to allow for 25-mm (1-inch) annular clear space between raceway or cable and sleeve for installing sleeve-seal system.
3.02 SLEEVE-SEAL-SYSTEM INSTALLATION A. Install sleeve-seal systems in sleeves in exterior concrete walls and slabs-on-grade at raceway entries into building. B. Install type and number of sealing elements recommended by manufacturer for raceway or cable material and size.
Position raceway or cable in center of sleeve. Assemble mechanical sleeve seals and install in annular space between raceway or cable and sleeve. Tighten bolts against pressure plates that cause sealing elements to expand and make watertight seal.
320163 / Meat Services Remodel 26 0544 - 3 SLEEVES AND SLEEVE SEALS FOR ELECTRICAL RACEWAYS AND CABLING
3.03 SLEEVE-SEAL-FITTING INSTALLATION A. Install sleeve-seal fittings in new walls and slabs as they are constructed. B. Assemble fitting components of length to be flush with both surfaces of concrete slabs and walls. Position waterstop flange
to be centered in concrete slab or wall. C. Secure nailing flanges to concrete forms. D. Using grout, seal the space around outside of sleeve-seal fittings.
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320163 / Meat Services Remodel 26 0544 - 4 SLEEVES AND SLEEVE SEALS FOR ELECTRICAL RACEWAYS AND CABLING
END OF SECTION
Bridgerland Technical College
320163 / Meat Services Remodel 26 0548 - 1 VIBRATION AND SEISMIC CONTROLS FOR ELECTRICAL SYSTEMS
SECTION 26 0548 VIBRATION AND SEISMIC CONTROLS FOR ELECTRICAL SYSTEMS
GENERAL
1.01 SUMMARY A. This Section includes the following:
1. Isolation pads. 2. Spring isolators. 3. Restrained spring isolators. 4. Channel support systems. 5. Restraint cables. 6. Hanger rod stiffeners. 7. Anchorage bushings and washers.
1.02 DEFINITIONS A. The IBC: International Building Code.
1.03 PERFORMANCE REQUIREMENTS A. Seismic-Restraint Loading:
1. Site Class as Defined in the IBC: D. 2. Assigned Seismic Use Group or Building Category as Defined in the IBC: III.
a. Component Importance Factor: 1.5. b. Component Response Modification Factor:
1) Fixture and Equipment: 2.5 2) Conduit and Cables: 5.
c. Component Amplification Factor: 2.5. 3. Design Spectral Response Acceleration at Short Periods (0.2 Second): 173%. 4. Design Spectral Response Acceleration at 1.0-Second Period: 76%.
1.04 QUALITY ASSURANCE A. Comply with seismic-restraint requirements in the IBC unless requirements in this Section are more stringent. B. Welding: Qualify procedures and personnel according to AWS D1.1/D1.1M, "Structural Welding Code - Steel." C. Seismic-restraint devices shall have horizontal and vertical load testing and analysis and shall bear anchorage
preapproval OPA number from OSHPD, preapproval by ICC-ES, or preapproval by another agency acceptable to authorities having jurisdiction, showing maximum seismic-restraint ratings. Ratings based on independent testing are preferred to ratings based on calculations. If preapproved ratings are not available, submittals based on independent
D. testing are preferred. Calculations (including combining shear and tensile loads) to support seismic-restraint designs must be signed and sealed by a qualified professional engineer.
E. Comply with NFPA 70. PRODUCTS
1.05 VIBRATION ISOLATORS A. Pads: Arrange in single or multiple layers of sufficient stiffness for uniform loading over pad area, molded with a
nonslip pattern and galvanized-steel baseplates, and factory cut to sizes that match requirements of supported equipment. 1. Resilient Material: Oil- and water-resistant hermetically sealed compressed fiberglass.
1.06 SEISMIC-RESTRAINT DEVICES A. General Requirements for Restraint Components: Rated strengths, features, and application requirements shall be as
defined in reports by an agency acceptable to authorities having jurisdiction. 1. Structural Safety Factor: Allowable strength in tension, shear, and pullout force of components shall be at least
four times the maximum seismic forces to which they will be subjected. B. Channel Support System: MFMA-3, shop- or field-fabricated support assembly made of slotted steel channels with
accessories for attachment to braced component at one end and to building structure at the other end and other matching components and with corrosion-resistant coating; and rated in tension, compression, and torsion forces.
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320163 / Meat Services Remodel 26 0548 - 2 VIBRATION AND SEISMIC CONTROLS FOR ELECTRICAL SYSTEMS
C. Restraint Cables: ASTM A 603 galvanized or ASTM A 492 stainless-steel cables with end connections made of steel assemblies with thimbles, brackets, swivels, and bolts designed for restraining cable service; and with a minimum of two clamping bolts for cable engagement.
D. Bushings for Floor-Mounted Equipment Anchor: Neoprene bushings designed for rigid equipment mountings, and matched to type and size of anchors and studs.
E. Bushing Assemblies for Wall-Mounted Equipment Anchorage: Assemblies of neoprene elements and steel sleeves designed for rigid equipment mountings, and matched to type and size of attachment devices.
F. Mechanical Anchor: Drilled-in and stud-wedge or female-wedge type in zinc-coated steel for interior applications and stainless steel for exterior applications. Select anchors with strength required for anchor and as tested according to ASTM E 488. Minimum length of eight times diameter.
G. Adhesive Anchor: Drilled-in and capsule anchor system containing polyvinyl or urethane methacrylate-based resin and accelerator, or injected polymer or hybrid mortar adhesive. Provide anchor bolts and hardware with zinc-coated steel for interior applications and stainless
H. steel for exterior applications. Select anchor bolts with strength required for anchor and as tested according to ASTM E 488.
I. Finish: Manufacturer's standard paint applied to factory-assembled and -tested equipment before shipping. 1. Powder coating on springs and housings. 2. All hardware shall be galvanized. Hot-dip galvanize metal components for exterior use. 3. Baked enamel or powder coat for metal components on isolators for interior use. 4. Color-code or otherwise mark vibration isolation and seismic-control devices to indicate capacity range.
EXECUTION
1.07 APPLICATIONS A. Multiple Raceways or Cables: Secure raceways and cables to trapeze member with clamps approved for application
by an agency acceptable to authorities having jurisdiction. B. Hanger Rod Stiffeners: Install hanger rod stiffeners where indicated or scheduled on Drawings to receive them and
where required to prevent buckling of hanger rods due to seismic forces. C. Strength of Support and Seismic-Restraint Assemblies: Where not indicated, select sizes of components so strength
will be adequate to carry present and future static and seismic loads within specified loading limits.
1.08 SEISMIC-RESTRAINT DEVICE INSTALLATION A. Equipment and Hanger Restraints:
1. Install restrained isolators on electrical equipment. 2. Install resilient, bolt-isolation washers on equipment anchor bolts where clearance between anchor and adjacent
surface exceeds 0.125 inch. 3. Install seismic-restraint devices using methods approved by an agency acceptable to authorities having
jurisdiction providing required submittals for component. B. Install bushing assemblies for mounting bolts for wall-mounted equipment, arranged to provide resilient media where
equipment or equipment-mounting channels are attached to wall. C. Attachment to Structure: If specific attachment is not indicated, anchor bracing to structure at flanges of beams, at
upper truss chords of bar joists, or at concrete members. D. Drilled-in Anchors:
1. Identify position of reinforcing steel and other embedded items prior to drilling holes for anchors. Do not damage existing reinforcing or embedded items during coring or drilling. Notify the structural engineer if reinforcing steel or other embedded items are encountered during drilling. Locate and avoid prestressed tendons, electrical and telecommunications conduit, and gas lines.
2. Do not drill holes in concrete or masonry until concrete, mortar, or grout has achieved full design strength. 3. Install zinc-coated steel anchors for interior and stainless-steel anchors for exterior applications.
1.09 ACCOMMODATION OF DIFFERENTIAL SEISMIC MOTION Install flexible connections in runs of raceways, cables, wireways, cable trays, and busways where they cross seismic joints, where adjacent sections or branches are supported by different structural elements, and where they terminate with connection to equipment that is anchored to a different structural element from the one supporting them as they approach equipment
END OF SECTION 26 0548
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320163 / Meat Services Remodel 26 0553 - 1 IDENTIFICATION FOR ELECTRICAL SYSTEMS
SECTION 26 0553
IDENTIFICATION FOR ELECTRICAL SYSTEMS
PART 1 - GENERAL
1.01 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01
Specification Sections, apply to this Section.
1.02 SUMMARY A. Section Includes:
1. Identification for raceways. 2. Identification for conductors. 3. Warning labels and signs. 4. Instruction signs. 5. Equipment identification labels. 6. Miscellaneous identification products.
1.03 QUALITY ASSURANCE A. Comply with ANSI A13.1. B. Comply with NFPA 70. C. Comply with 29 CFR 1910.144 and 29 CFR 1910.145. D. Comply with ANSI Z535.4 for safety signs and labels. E. Adhesive-attached labeling materials, including label stocks, laminating adhesives, and inks used by label printers, shall
comply with UL 969.
1.04 COORDINATION A. Coordinate identification names, abbreviations, colors, and other features with requirements in other Sections requiring
identification applications, Drawings, Shop Drawings, manufacturer's wiring diagrams, and the Operation and Maintenance Manual; and with those required by codes, standards, and 29 CFR 1910.145. Use consistent designations throughout Project.
B. Coordinate installation of identifying devices with completion of covering and painting of surfaces where devices are to be applied.
C. Coordinate installation of identifying devices with location of access panels and doors. D. Install identifying devices before installing acoustical ceilings and similar concealment.
PART 2 - PRODUCTS
2.01 POWER AND CONTROL RACEWAY IDENTIFICATION MATERIALS A. Comply with ANSI A13.1 for minimum size of letters for legend and for minimum length of color field for each raceway size. B. Colors for Raceways Carrying Circuits at 600 V or Less:
1. Black letters on an orange field. 2. Legend: Indicate voltage and system or service type.
C. Colors for Raceways Carrying Circuits at More Than 600 V: 1. Black letters on an orange field. 2. Legend: "DANGER CONCEALED HIGH VOLTAGE WIRING."
D. Vinyl Labels for Raceways Carrying Circuits at 600 V or Less: Preprinted, flexible label laminated with a clear, weather- and chemical-resistant coating and matching wraparound clear adhesive tape for securing ends of legend label.
E. Snap-Around Labels for Raceways Carrying Circuits at 600 V or Less: Slit, pretensioned, flexible, preprinted, color-coded acrylic sleeve, with diameter sized to suit diameter of raceway or cable it identifies and to stay in place by gripping action.
F. Snap-Around, Color-Coding Bands for Raceways Carrying Circuits at 600 V or Less: Slit, pretensioned, flexible, solid-colored acrylic sleeve, 50 mm (2 inches) long, with diameter sized to suit diameter of raceway or cable it identifies and to stay in place by gripping action.
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320163 / Meat Services Remodel 26 0553 - 2 IDENTIFICATION FOR ELECTRICAL SYSTEMS
G. Tape and Stencil for Raceways Carrying Circuits More Than 600 V: 100-mm- (4-inch-) wide black stripes on 250-mm (10-inch) centers diagonally over orange background that extends full length of raceway or duct and is 300 mm (12 inches) wide. Stop stripes at legends.
H. Metal Tags: Brass or aluminum, 50 by 50 by 1.3 mm (2 by 2 by 0.05 inch), with stamped legend, punched for use with self-locking cable tie fastener.
I. Write-On Tags: Polyester tag, 0.25 mm (0.010 inch) thick, with corrosion-resistant grommet and cable tie for attachment to conductor or cable. 1. Marker for Tags: Permanent, waterproof, black ink marker recommended by tag manufacturer. 2. Marker for Tags: Machine-printed, permanent, waterproof, black ink marker recommended by printer manufacturer.
2.02 CONDUCTOR IDENTIFICATION MATERIALS A. Color-Coding Conductor Tape: Colored, self-adhesive vinyl tape not less than 0.08 mm (3 mils) thick by 25 to 50 mm (1 to
2 inches) wide. B. Heat-Shrink Preprinted Tubes: Flame-retardant polyolefin tube with machine-printed identification label. Sized to suit
diameter of and shrinks to fit firmly around conductor it identifies. Full shrink recovery at a maximum of 93 deg C (200 deg F). Comply with UL 224.
2.03 WARNING LABELS AND SIGNS A. Comply with NFPA 70 and 29 CFR 1910.145. B. Self-Adhesive Warning Labels: Factory-printed, multicolor, pressure-sensitive adhesive labels, configured for display on
front cover, door, or other access to equipment unless otherwise indicated. C. Baked-Enamel Warning Signs:
1. Preprinted aluminum signs, punched or drilled for fasteners, with colors, legend, and size required for application. 2. 6.4-mm (1/4-inch) grommets in corners for mounting. 3. Nominal size, 180 by 250 mm (7 by 10 inches).
D. Metal-Backed, Butyrate Warning Signs: 1. Weather-resistant, nonfading, preprinted, cellulose-acetate butyrate signs with 1-mm (0.0396-inch) galvanized-steel
backing; and with colors, legend, and size required for application. 2. 6.4-mm (1/4-inch) grommets in corners for mounting. 3. Nominal size, 250 by 360 mm (10 by 14 inches).
E. Warning label and sign shall include, but are not limited to, the following legends: 1. Multiple Power Source Warning: "DANGER - ELECTRICAL SHOCK HAZARD - EQUIPMENT HAS MULTIPLE
POWER SOURCES." 2. Workspace Clearance Warning: "WARNING - OSHA REGULATION - AREA IN FRONT OF ELECTRICAL
EQUIPMENT MUST BE KEPT CLEAR FOR 915 MM (36 INCHES)." 3. Arc Flash Hazard Warning: Manufacturer standard indicating hazardous conditions when exposed.
2.04 INSTRUCTION SIGNS A. Engraved, laminated acrylic or melamine plastic, minimum 1.6 mm (1/16 inch) thick for signs up to 129 sq. cm (20 sq.
inches) and 3.2 mm (1/8 inch) thick for larger sizes. 1. Engraved legend with black letters on white face. 2. Punched or drilled for mechanical fasteners. 3. Framed with mitered acrylic molding and arranged for attachment at applicable equipment.
2.05 EQUIPMENT IDENTIFICATION LABELS A. Self-Adhesive, Engraved, Laminated Acrylic or Melamine Label: Adhesive backed, with white letters on a dark-gray
background. Minimum letter height shall be 10 mm (3/8 inch). B. Engraved, Laminated Acrylic or Melamine Label: Punched or drilled for screw mounting. White letters on a dark-gray
background. Minimum letter height shall be 10 mm (3/8 inch).
2.06 CABLE TIES A. General-Purpose Cable Ties: Fungus inert, self extinguishing, one piece, self locking, Type 6/6 nylon.
1. Minimum Width: 5 mm (3/16 inch). 2. Tensile Strength at 23 deg C (73 deg F), According to ASTM D 638: 82.7 MPa (12,000 psi). 3. Temperature Range: Minus 40 to plus 85 deg C (Minus 40 to plus 185 deg F). 4. Color: Black except where used for color-coding.
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320163 / Meat Services Remodel 26 0553 - 3 IDENTIFICATION FOR ELECTRICAL SYSTEMS
B. UV-Stabilized Cable Ties: Fungus inert, designed for continuous exposure to exterior sunlight, self extinguishing, one piece, self locking, Type 6/6 nylon. 1. Minimum Width: 5 mm (3/16 inch). 2. Tensile Strength at 23 deg C (73 deg F), According to ASTM D 638: 82.7 MPa (12,000 psi). 3. Temperature Range: Minus 40 to plus 85 deg C (Minus 40 to plus 185 deg F). 4. Color: Black.
2.07 MISCELLANEOUS IDENTIFICATION PRODUCTS A. Paint: Comply with requirements in painting Sections for paint materials and application requirements. Select paint
system applicable for surface material and location (exterior or interior). B. Fasteners for Labels and Signs: Self-tapping, stainless-steel screws or stainless-steel machine screws with nuts and flat
and lock washers.
PART 3 - EXECUTION
3.01 INSTALLATION A. Verify identity of each item before installing identification products. B. Location: Install identification materials and devices at locations for most convenient viewing without interference with
operation and maintenance of equipment. C. Apply identification devices to surfaces that require finish after completing finish work. D. Self-Adhesive Identification Products: Clean surfaces before application, using materials and methods recommended by
manufacturer of identification device. E. Attach signs and plastic labels that are not self-adhesive type with mechanical fasteners appropriate to the location and
substrate. F. Attach plastic raceway and cable labels that are not self-adhesive type with clear vinyl tape with adhesive appropriate to
the location and substrate. G. System Identification Color-Coding Bands for Raceways and Cables: Each color-coding band shall completely encircle
cable or conduit. Place adjacent bands of two-color markings in contact, side by side. Locate bands at changes in direction, at penetrations of walls and floors, at 15-m (50-foot) maximum intervals in straight runs, and at 7.6-m (25-foot) maximum intervals in congested areas.
H. Aluminum Wraparound Marker Labels and Metal Tags: Secure tight to surface of conductor or cable at a location with high visibility and accessibility.
I. Cable Ties: For attaching tags. Use general-purpose type, except as listed below: 1. Outdoors: UV-stabilized nylon. 2. In Spaces Handling Environmental Air: Plenum rated.
J. Underground-Line Warning Tape: During backfilling of trenches install continuous underground-line warning tape directly above line at 150 to 200 mm (6 to 8 inches) below finished grade. Use multiple tapes where width of multiple lines installed in a common trench or concrete envelope exceeds 400 mm (16 inches) overall.
K. Painted Identification: Comply with requirements in painting Sections for surface preparation and paint application.
3.02 IDENTIFICATION SCHEDULE A. Accessible Raceways and Metal-Clad Cables, 600 V or Less, for Feeders from an external source More Than 30 A, and
120 V to ground: Identify with self-adhesive vinyl label. Install labels at 3-m (10-foot) maximum intervals. B. Accessible Raceways and Cables within Buildings: Identify the covers of each junction and pull box of the following
systems with self-adhesive vinyl labels with the wiring system legend and system voltage. System legends shall be as follows: 1. Emergency Power.
C. Power-Circuit Conductor Identification, 600 V or Less: For conductors in vaults, pull and junction boxes, manholes, and handholes, use color-coding conductor tape to identify the phase. 1. Color-Coding for Phase and Voltage Level Identification, 600 V or Less: Use colors listed below for ungrounded
feeder and branch-circuit conductors. a. Color shall be factory applied or field applied for sizes larger than No. 8 AWG, if authorities having jurisdiction
permit. b. Colors for 208/120-V Circuits (verify with existing facility prior to ordering wire):
1) Phase A: Black. 2) Phase B: Red.
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320163 / Meat Services Remodel 26 0553 - 4 IDENTIFICATION FOR ELECTRICAL SYSTEMS
3) Phase C: Blue. 4) Neutral: White with colored stripe matching associated phase color 5) Ground: Green
c. Colors for 480/277-V Circuits (verify with existing facility prior to ordering wire): 1) Phase A: Brown. 2) Phase B: Orange. 3) Phase C: Yellow. 4) Neutral: Gray with colored stripe matching associated phase color 5) Ground: Green with gray stripe
d. Field-Applied, Color-Coding Conductor Tape: Apply in half-lapped turns for a minimum distance of 150 mm (6 inches) from terminal points and in boxes where splices or taps are made. Apply last two turns of tape with no tension to prevent possible unwinding. Locate bands to avoid obscuring factory cable markings.
D. Control-Circuit Conductor Identification: For conductors and cables in pull and junction boxes, manholes, and handholes, use write-on tags or self-adhesive vinyl labels with the conductor or cable designation, origin, and destination.
E. Control-Circuit Conductor Termination Identification: For identification at terminations provide self-adhesive vinyl labels with the conductor designation.
F. Auxiliary Electrical Systems Conductor Identification: Identify field-installed alarm, control, and signal connections. 1. Identify conductors, cables, and terminals in enclosures and at junctions, terminals, and pull points. Identify by
system and circuit designation. 2. Use system of marker tape designations that is uniform and consistent with system used by manufacturer for factory-
installed connections. 3. Coordinate identification with Project Drawings, manufacturer's wiring diagrams, and the Operation and Maintenance
Manual. G. Locations of Underground Lines: Identify with underground-line warning tape for power, lighting, communication, and
control wiring and optical fiber cable. 1. Install underground-line warning tape for both direct-buried cables and cables in raceway.
H. Warning Labels for Indoor Cabinets, Boxes, and Enclosures for Power and Lighting: Self-adhesive warning labels. 1. Comply with 29 CFR 1910.145. 2. Identify system voltage with black letters on an orange background. 3. Apply to exterior of door, cover, or other access. 4. For equipment with multiple power or control sources, apply to door or cover of equipment including, but not limited
to, the following: a. Power transfer switches. b. Controls with external control power connections.
I. Operating Instruction Signs: Install instruction signs to facilitate proper operation and maintenance of electrical systems and items to which they connect. Install instruction signs with approved legend where instructions are needed for system or equipment operation.
J. Emergency Operating Instruction Signs: Install instruction signs with white legend on a red background with minimum 10-mm- (3/8-inch-) high letters for emergency instructions at equipment used for power transfer.
K. Equipment Identification Labels: On each unit of equipment, install unique designation label that is consistent with wiring diagrams, schedules, and the Operation and Maintenance Manual. Apply labels to disconnect switches and protection equipment, central or master units, control panels, control stations, terminal cabinets, and racks of each system. Systems include power, lighting, control, communication, signal, monitoring, and alarm systems unless equipment is provided with its own identification. 1. Labeling Instructions:
a. Indoor Equipment: Self-adhesive, engraved, laminated acrylic or melamine label. Unless otherwise indicated, provide a single line of text with 13-mm- (1/2-inch-) high letters on 38-mm- (1-1/2-inch-) high label; where two lines of text are required, use labels 50 mm (2 inches) high.
b. Outdoor Equipment: Engraved, laminated acrylic or melamine label. c. Elevated Components: Increase sizes of labels and letters to those appropriate for viewing from the floor. d. Unless provided with self-adhesive means of attachment, fasten labels with appropriate mechanical fasteners
that do not change the NEMA or NRTL rating of the enclosure. 2. Equipment to Be Labeled:
a. Panelboards: Typewritten directory of circuits in the location provided by panelboard manufacturer. Panelboard identification shall be self-adhesive, engraved, laminated acrylic or melamine label.
b. Enclosures and electrical cabinets. c. Access doors and panels for concealed electrical items.
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320163 / Meat Services Remodel 26 0553 - 5 IDENTIFICATION FOR ELECTRICAL SYSTEMS
d. Transformers: Label that includes tag designation shown on Drawings for the transformer, feeder, and panelboards or equipment supplied by the secondary.
e. Emergency system boxes and enclosures. f. Enclosed switches. g. Enclosed circuit breakers. h. Push-button stations. i. Power transfer equipment. j. Contactors. k. Remote-controlled switches, dimmer modules, and control devices. l. Power-generating units. m. Access control gateways and head-end equipment
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320163 / Meat Services Remodel 26 0553 - 6 IDENTIFICATION FOR ELECTRICAL SYSTEMS
1. Receptacles, receptacles with integral GFCI, and associated device plates. 2. Tamper-resistant receptacles. 3. Weather-resistant receptacles. 4. Wall-switch and exterior occupancy sensors.
1.02 DEFINITIONS A. EMI: Electromagnetic interference. B. GFCI: Ground-fault circuit interrupter. C. Pigtail: Short lead used to connect a device to a branch-circuit conductor. D. RFI: Radio-frequency interference. E. TVSS: Transient voltage surge suppressor. F. UTP: Unshielded twisted pair.
1.03 ADMINISTRATIVE REQUIREMENTS A. Coordination:
1. Receptacles for Owner-Furnished Equipment: Match plug configurations. 2. Cord and Plug Sets: Match equipment requirements.
PRODUCTS
1.04 GENERAL WIRING-DEVICE REQUIREMENTS A. Wiring Devices, Components, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency,
and marked for intended location and application. B. Comply with NFPA 70. C. Devices that are manufactured for use with modular plug-in connectors may be substituted under the following conditions:
1. Connectors shall comply with UL 2459 and shall be made with stranding building wire. 2. Devices shall comply with the requirements in this Section.
1.05 STRAIGHT-BLADE RECEPTACLES A. Convenience Receptacles, 125 V, 20 A: Comply with NEMA WD 1, NEMA WD 6 Configuration 5-20R, UL 498, and FS W-
C-596. B. Tamper-Resistant Convenience Receptacles, 125 V, 20 A: Comply with NEMA WD 1, NEMA WD 6 Configuration 5-20R,
UL 498 Supplement sd, and FS W-C-596.
1.06 GFCI RECEPTACLES A. General Description:
1. Straight blade, feed-through type. 2. Comply with NEMA WD 1, NEMA WD 6, UL 498, UL 943 Class A, and FS W-C-596. 3. Include indicator light that shows when the GFCI has malfunctioned and no longer provides proper GFCI protection.
B. Duplex GFCI Convenience Receptacles, 125 V, 20 A: C. Tamper-Resistant GFCI Convenience Receptacles, 125 V, 20 A:
1.07 TOGGLE SWITCHES A. Comply with NEMA WD 1, UL 20, and FS W-S-896. B. Switches, 120/277 V, 20 A: C. Pilot-Light Switches, 20 A:
1. Description: Single pole, with neon-lighted handle, illuminated when switch is "off."
1.08 WALL PLATES A. Single and combination types shall match corresponding wiring devices.
1. Plate-Securing Screws: Metal with head color to match plate finish. 2. Material for Finished Spaces: Smooth, high-impact thermoplastic. 3. Material for Unfinished Spaces: Galvanized steel. 4. Material for Damp Locations: Thermoplastic with spring-loaded lift cover, and listed and labeled for use in wet and
damp locations. B. Wet-Location, Weatherproof Cover Plates: NEMA 250, complying with Type 3R, weather-resistant, die-cast aluminum with
lockable cover. C. Wet location, Weather-proof-in-use: Arlington In-Box Series
1.09 FINISHES A. Device Color:
1. Wiring Devices Connected to Normal Power System: White unless otherwise indicated or required by NFPA 70 or device listing.
B. Wall Plate Color: For plastic covers, match device color.
EXECUTION
1.10 INSTALLATION A. Comply with NECA 1, including mounting heights listed in that standard, unless otherwise indicated. B. Identify each receptacle with panelboard identification and circuit number. Use hot, stamped, or engraved machine printing
with black-filled lettering on face of plate, and durable wire markers or tags inside outlet boxes.
SECTION 26 2816 ENCLOSED SWITCHES AND CIRCUIT BREAKERS
GENERAL
1.01 SUMMARY A. Section Includes:
1. Non-fusible switches. 2. Fusible switches.
1.02 DEFINITIONS A. NC: Normally closed. B. NO: Normally open. C. SPDT: Single pole, double throw.
1.03 QUALITY ASSURANCE A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency,
and marked for intended location and application. B. Comply with NFPA 70.
1.04 MAINTENANCE MATERIAL SUBMITTALS A. Furnish extra materials that match products installed and that are packaged with protective covering for storage and
identified with labels describing contents. 1. Fuses: Equal to 10 percent of quantity installed for each size and type, but no fewer than three of each size and type.
1.05 WARRANTY A. Manufacturer's Warranty: Manufacturer and Installer agree to repair or replace components that fail in materials or
workmanship within specified warranty period. 1. Warranty Period: One year from date of Substantial Completion.
1.06 ACTION SUBMITTALS A. Product Data: For each type of enclosed switch, circuit breaker, accessory, and component indicated. Include nameplate
ratings, dimensioned elevations, sections, weights, and manufacturers' technical data on features, performance, electrical characteristics, ratings, accessories, and finishes. 1. Enclosure types and details for types other than NEMA 250, Type 1.
PRODUCTS
1.07 FUSIBLE SWITCHES A. Type HD, Heavy Duty:
1. Single throw. 2. Three pole. 3. 600-V ac. 4. 200 A and smaller. 5. UL 98 and NEMA KS 1, horsepower rated, with clips or bolt pads to accommodate indicated fuses. 6. Lockable handle with capability to accept two padlocks, and interlocked with cover in closed position.
B. Accessories: 1. Equipment Ground Kit: Internally mounted and labeled for copper and aluminum ground conductors. 2. Neutral Kit: Internally mounted; insulated, capable of being grounded and bonded; labeled for copper and aluminum
neutral conductors. 3. Lugs: suitable for number, size, and conductor material.
1.08 NONFUSIBLE SWITCHES A. Type GD, General Duty, Single Throw, 600 A and Smaller: UL 98 and NEMA KS 1, horsepower rated, lockable handle with
capability to accept two padlocks, and interlocked with cover in closed position. B. Accessories:
1. Equipment Ground Kit: Internally mounted and labeled for copper and aluminum ground conductors. 2. Neutral Kit: Internally mounted; insulated, capable of being grounded and bonded; labeled for copper and aluminum
neutral conductors. 3. Lugs: suitable for number, size, and conductor material.
EXECUTION
1.09 INSTALLATION A. Install individual wall-mounted switches and circuit breakers with tops at uniform height unless otherwise indicated. B. Comply with mounting and anchoring requirements specified in Section 26 0548.16 "Seismic Controls for Electrical
Systems." C. Temporary Lifting Provisions: Remove temporary lifting eyes, channels, and brackets and temporary blocking of moving
parts from enclosures and components. D. Comply with NECA 1.
1.10 IDENTIFICATION A. Comply with requirements in Section 26 0553 "Identification for Electrical Systems."
B. Related Sections: 1. Section 26 0923 "Lighting Control Devices" for automatic control of lighting, including time switches, photoelectric
relays, occupancy sensors, and multipole lighting relays and contactors. 2. Section 26 2726 "Wiring Devices" for manual wall-box dimmers.
1.03 DEFINITIONS A. BF: Ballast factor. B. CCT: Correlated color temperature. C. CRI: Color-rendering index. D. HID: High-intensity discharge. E. LER: Luminaire efficacy rating. F. Lumen: Measured output of lamp and luminaire, or both. G. Luminaire: Complete lighting fixture, including ballast housing if provided.
1.04 ACTION SUBMITTALS A. Product Data: For each type of lighting fixture, arranged in order of fixture designation. Include data on features,
accessories, finishes, and the following: 1. Physical description of lighting fixture including dimensions. 2. Emergency lighting units including battery and charger. 3. Ballast, including BF. 4. Energy-efficiency data. 5. Air and Thermal Performance Data: For air-handling lighting fixtures. Furnish data required in "Action Submittals"
Article in Section 23 3713 "Diffusers, Registers, and Grilles." 6. Sound Performance Data: For air-handling lighting fixtures. Indicate sound power level and sound transmission
class in test reports certified according to standards specified in Section 23 3713 "Diffusers, Registers, and Grilles." 7. Life, output (lumens, CCT, and CRI), and energy-efficiency data for lamps. 8. Photometric data and adjustment factors based on laboratory tests, complying with IESNA Lighting Measurements
Testing & Calculation Guides, of each lighting fixture type. The adjustment factors shall be for lamps, ballasts, and accessories identical to those indicated for the lighting fixture as applied in this Project. a. Manufacturer Certified Data: Photometric data shall be certified by a manufacturer's laboratory with a current
accreditation under the National Voluntary Laboratory Accreditation Program for Energy Efficient Lighting Products.
B. Shop Drawings: For nonstandard or custom lighting fixtures. Include plans, elevations, sections, details, and attachments to other work. 1. Detail equipment assemblies and indicate dimensions, weights, loads, required clearances, method of field
assembly, components, and location and size of each field connection. 2. Wiring Diagrams: For power, signal, and control wiring.
C. Installation instructions.
1.05 INFORMATIONAL SUBMITTALS A. Qualification Data: For qualified agencies providing photometric data for lighting fixtures.
B. Product Certificates: For each type of ballast for bi-level and dimmer-controlled fixtures, from manufacturer. C. Field quality-control reports.
1.06 CLOSEOUT SUBMITTALS A. Operation and Maintenance Data: For lighting equipment and fixtures to include in emergency, operation, and
maintenance manuals. 1. Provide a list of all lamp types used on Project; use ANSI and manufacturers' codes.
1.07 MAINTENANCE MATERIAL SUBMITTALS A. Furnish extra materials that match products installed and that are packaged with protective covering for storage and
identified with labels describing contents. 1. Lamps: 10 for every 100 of each type and rating installed. Furnish at least one of each type. 2. Plastic Diffusers and Lenses: One for every 100 of each type and rating installed. Furnish at least one of each type. 3. Ballasts: One for every 100 of each type and rating installed. Furnish at least one of each type.
1.08 QUALITY ASSURANCE A. Luminaire Photometric Data Testing Laboratory Qualifications: Provided by manufacturers' laboratories that are accredited
under the National Volunteer Laboratory Accreditation Program for Energy Efficient Lighting Products. B. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing
agency, and marked for intended location and application. C. Comply with NFPA 70.
1.09 COORDINATION A. Coordinate layout and installation of lighting fixtures and suspension system with other construction that penetrates ceilings
or is supported by them, including HVAC equipment, fire-suppression system, and partition assemblies.
PART 2 - PRODUCTS
2.01 MANUFACTURERS A. Products: Subject to compliance with requirements, provide product indicated on Drawings.
2.02 GENERAL REQUIREMENTS FOR LIGHTING FIXTURES AND COMPONENTS A. Recessed Fixtures: Comply with NEMA LE 4 for ceiling compatibility for recessed fixtures. B. Fluorescent Fixtures: Comply with UL 1598. Where LER is specified, test according to NEMA LE 5 and NEMA LE 5A as
applicable. C. HID Fixtures: Comply with UL 1598. Where LER is specified, test according to NEMA LE 5B. D. LED Fixtures: Comply with UL 1598. Where LER is specified, test according to NEMA LE5 and NEMA LE5A as applicable E. Metal Parts: Free of burrs and sharp corners and edges. F. Sheet Metal Components: Steel unless otherwise indicated. Form and support to prevent warping and sagging. G. Doors, Frames, and Other Internal Access: Smooth operating, free of light leakage under operating conditions, and
designed to permit relamping without use of tools. Designed to H. prevent doors, frames, lenses, diffusers, and other components from falling accidentally during relamping and when
secured in operating position. I. Diffusers and Globes:
1. Acrylic Lighting Diffusers: 100 percent virgin acrylic plastic. High resistance to yellowing and other changes due to aging, exposure to heat, and UV radiation. a. Lens Thickness: At least 3.175 mm (0.125 inch) minimum unless otherwise indicated. b. UV stabilized.
2. Glass: Annealed crystal glass unless otherwise indicated. J. Factory-Applied Labels: Comply with UL 1598. Include recommended lamps and ballasts. Labels shall be located where
they will be readily visible to service personnel, but not seen from normal viewing angles when lamps are in place. 1. Label shall include the following lamp and ballast characteristics:
a. "USE ONLY" and include specific lamp type. b. Lamp diameter code (T-4, T-5, T-8, T-12, etc.), tube configuration (twin, quad, triple, etc.), base type, and
nominal wattage for fluorescent and compact fluorescent luminaires. c. Lamp type, wattage, bulb type (ED17, BD56, etc.) and coating (clear or coated) for HID luminaires. d. Start type (preheat, rapid start, instant start, etc.) for fluorescent and compact fluorescent luminaires.
e. ANSI ballast type (M98, M57, etc.) for HID luminaires. f. CCT and CRI for all luminaires.
2.03 BALLASTS FOR LINEAR FLUORESCENT LAMPS A. General Requirements for Electronic Ballasts:
1. Comply with UL 935 and with ANSI C82.11. 2. Designed for type and quantity of lamps served. 3. Ballasts shall be designed for full light output unless another BF, dimmer, or bi-level control is indicated. 4. Sound Rating: Class A. 5. Total Harmonic Distortion Rating: Less than 10 percent. 6. Transient Voltage Protection: IEEE C62.41.1 and IEEE C62.41.2, Category A or better. 7. Operating Frequency: 42 kHz or higher. 8. Lamp Current Crest Factor: 1.7 or less. 9. BF: 0.88 or higher. 10. Power Factor: 0.98 or higher. 11. Parallel Lamp Circuits: Multiple lamp ballasts shall comply with ANSI C82.11 and shall be connected to maintain full
light output on surviving lamps if one or more lamps fail. B. luminaires controlled by occupancy sensors shall have programmed-start ballasts. C. Electronic Programmed-Start Ballasts for T8 Lamps: Comply with ANSI C82.11 and the following:
1. Lamp end-of-life detection and shutdown circuit for T5 diameter lamps. 2. Automatic lamp starting after lamp replacement.
D. Ballasts for Dimmer-Controlled Lighting Fixtures: Electronic type. 1. Dimming Range: 100 to 5 percent of rated lamp lumens. 2. Ballast Input Watts: Can be reduced to 20 percent of normal. 3. Compatibility: Certified by manufacturer for use with specific dimming control system and lamp type indicated. 4. Control: Coordinate wiring from ballast to control device to ensure that the ballast, controller, and connecting wiring
are compatible.
2.04 BALLASTS FOR COMPACT FLUORESCENT LAMPS A. Description: Electronic-programmed rapid-start type, complying with UL 935 and with ANSI C 82.11, designed for type and
quantity of lamps indicated. Ballast shall be designed for full light output unless dimmer or bi-level control is indicated: 1. Lamp end-of-life detection and shutdown circuit. 2. Automatic lamp starting after lamp replacement. 3. Sound Rating: Class A. 4. Total Harmonic Distortion Rating: Less than 20 percent. 5. Transient Voltage Protection: IEEE C62.41.1 and IEEE C62.41.2, Category A or better. 6. Operating Frequency: 20 kHz or higher. 7. Lamp Current Crest Factor: 1.7 or less. 8. BF: 0.95 or higher unless otherwise indicated. 9. Power Factor: 0.98 or higher. 10. Interference: Comply with 47 CFR 18, Ch. 1, Subpart C, for limitations on electromagnetic and radio-frequency
interference for nonconsumer equipment.
2.05 LED LUMINAIRES A. Solid State Drivers and LED: Comply with DOE LM 79
1. Total Harmonic Distortion Rating: Less than 10 percent 2. Transient Voltage protection 3. Power factor: 0.90 or higher 4. Temperatures: Minus 40 deg F (minus 40 deg C) and higher 5. Heat sink to remove heat from circuits 6. L70 compliant to 70,000 hours minimum 7. Dimmable
a. Dimming Range: 100 to 1 percent of rated lamp lumens b. Input watts: Can be reduced to 20 percent of normal c. Compatibility: Certified by manufacturer for use with specific dimming control system and lamp type indicated.
2.06 BALLASTS FOR HID LAMPS A. Electronic Ballast for Metal-Halide Lamps: Include the following features unless otherwise indicated:
1. Minimum Starting Temperature: Minus 29 deg C (Minus 20 deg F) for single-lamp ballasts. 2. Rated Ambient Operating Temperature: 54 deg C (130 deg F). 3. Lamp end-of-life detection and shutdown circuit. 4. Sound Rating: Class A. 5. Total Harmonic Distortion Rating: Less than 20 percent. 6. Transient Voltage Protection: IEEE C62.41.1 and IEEE C62.41.2, Category A or better. 7. Lamp Current Crest Factor: 1.5 or less. 8. Power Factor: 0.90 or higher. 9. Interference: Comply with 47 CFR 18, Ch. 1, Subpart C, for limitations on electromagnetic and radio-frequency
interference for nonconsumer equipment. 10. Protection: Class P thermal cutout.
2.07 QUARTZ LAMP LIGHTING CONTROLLER A. General Requirements for Controllers: Factory installed by lighting fixture manufacturer. Comply with UL 1598. B. Standby (Quartz Restrike): Automatically switches quartz lamp on when a HID lamp in the fixture is initially energized and
during the HID lamp restrike period after brief power outages. C. Connections: Designed for a single branch -circuit connection. D. Switching Off: Automatically switches quartz lamp off when HID lamp strikes. E. Switching Off: Automatically switches quartz lamp off when HID lamp reaches approximately 60 percent light output.
2.08 EXIT SIGNS A. General Requirements for Exit Signs: Comply with UL 924; for sign colors, visibility, luminance, and lettering size, comply
with authorities having jurisdiction. B. Internally Lighted Signs:
1. Lamps for AC Operation: LEDs, 50,000 hours minimum rated lamp life.
2.09 FLUORESCENT LAMPS A. T8 rapid-start lamps, rated 32 W maximum, CRI 85 (minimum), color temperature 4100 K, and average rated life 20,000
hours unless otherwise indicated. B. Compact Fluorescent Lamps: 4-Pin, CRI 80 (minimum), color temperature 3500 K, average rated life of 10,000 hours at
three hours operation per start unless otherwise indicated.
2.10 HID LAMPS A. Metal-Halide Lamps: ANSI C78.43, with minimum CRI 65, and color temperature 4000 K. B. Pulse-Start, Metal-Halide Lamps: Minimum CRI 65, and color temperature 4000 K.
2.11 LIGHTING FIXTURE SUPPORT COMPONENTS A. Comply with Section 26 0529 "Hangers and Supports for Electrical Systems" for channel- and angle-iron supports and
nonmetallic channel and angle supports. B. Wires: ASTM A 641/A 641M, Class 3, soft temper, zinc-coated steel, 2.68 mm (12 gage). C. Wires for Humid Spaces: ASTM A 580/A 580M, Composition 302 or 304, annealed stainless steel, 2.68 mm (12 gage).
PART 3 - EXECUTION
3.01 INSTALLATION A. Lighting fixtures:
1. Set level, plumb, and square with ceilings and walls unless otherwise indicated. 2. Install lamps in each luminaire.
B. Temporary Lighting: If it is necessary, and approved by Architect, to use permanent luminaires for temporary lighting, install and energize the minimum number of luminaires necessary. When construction is sufficiently complete, remove the temporary luminaires, disassemble, clean thoroughly, install new lamps, and reinstall.
C. Remote Mounting of Ballasts: Distance between the ballast and fixture shall not exceed that recommended by ballast manufacturer. Verify, with ballast manufacturers, maximum distance between ballast and luminaire.
D. Lay-in Ceiling Lighting Fixtures Supports: Use grid as a support element. 1. Install ceiling support system rods or wires, independent of the ceiling suspension devices, for each fixture. Locate
not more than 150 mm (6 inches) from lighting fixture corners.
2. Support Clips: Fasten to lighting fixtures and to ceiling grid members at or near each fixture corner with clips that are UL listed for the application.
3. Fixtures of Sizes Less Than Ceiling Grid: Install as indicated on reflected ceiling plans or center in acoustical panel, and support fixtures independently with at least two 20-mm (3/4-inch) metal channels spanning and secured to ceiling tees.
4. Install at least one independent support rod or wire from structure to a tab on lighting fixture. Wire or rod shall have breaking strength of the weight of fixture at a safety factor of 3.
E. Suspended Lighting Fixture Support: 1. Pendants and Rods: Where longer than 1200 mm (48 inches), brace to limit swinging. 2. Stem-Mounted, Single-Unit Fixtures: Suspend with twin-stem hangers. 3. Continuous Rows: Use tubing or stem for wiring at one point and tubing or rod for suspension for each unit length of
fixture chassis, including one at each end. 4. Do not use grid as support for pendant luminaires. Connect support wires or rods to building structure.
F. Connect wiring according to Section 26 0519 "Low-Voltage Electrical Power Conductors and Cables."
3.02 IDENTIFICATION A. Install labels with panel and circuit numbers on concealed junction and outlet boxes. Comply with requirements for
identification specified in Section 26 0553 "Identification for Electrical Systems."
3.03 FIELD QUALITY CONTROL A. Test for Emergency Lighting: Interrupt power supply to demonstrate proper operation. Verify transfer from normal power
to battery and retransfer to normal.
3.04 STARTUP SERVICE A. Burn-in all lamps that require specific aging period to operate properly, prior to occupancy by Owner. Burn-in fluorescent
and compact fluorescent lamps intended to be dimmed, for at least 100 hours at full voltage.
3.05 ADJUSTING A. Occupancy Adjustments: When requested within 12 months of date of Substantial Completion, provide on-site assistance
in adjusting aimable luminaires to suit actual occupied conditions. Provide up to two visits to Project during other-than-normal occupancy hours for this purpose. Some of this work may be required after dark. 1. Adjust aimable luminaires in the presence of Architect.
280513 CONDUCTORS AND CABLES FOR ELECTRONIC SAFETY AND SECURITY 280528 PATHWAYS FOR ELECTRONIC SAFETY AND SECURITY 283111 DIGITAL, ADDRESSABLE FIRE-ALARM SYSTEM
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END OF TABLE OF CONTENTS
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320163 / Meat Services Remodel 28 0513 - 1 CONDUCTORS AND CABLES FOR ELECTRONIC SAFETY AND SECURITY
-SECTION 28 0513 - CONDUCTORS AND CABLES FOR ELECTRONIC SAFETY AND SECURITY
GENERAL
1.01 SUMMARY A. Section Includes:
1. UTP cabling. 2. Fire alarm wire and cable. 3. Identification products.
1.02 DEFINITIONS A. EMI: Electromagnetic interference. B. IDC: Insulation displacement connector. C. Low Voltage: As defined in NFPA 70 for circuits and equipment operating at less than 50 V or for remote-control and
signaling power-limited circuits. D. Open Cabling: Passing telecommunications cabling through open space (e.g., between the studs of a wall cavity).
1.03 ADMINISTRATIVE REQUIREMENTS A. Coordinate layout and installation of electronic safety and security cabling with Owner's telecommunications and LAN
equipment and service suppliers.
PRODUCTS
1.04 PERFORMANCE REQUIREMENTS A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency,
and marked for intended location and application.
1.05 UTP CABLE A. Description: 100-ohm, four-pair UTP, covered with a blue thermoplastic jacket.
1. Comply with ICEA S-90-661 for mechanical properties. 2. Comply with TIA-568-C.1 for performance specifications. 3. Comply with TIA-568-C.2, Category 5e. 4. Listed and labeled by an NRTL acceptable to authorities having jurisdiction as complying with UL 444 and NFPA 70
for the following types: a. Communications, General Purpose: Type CM or Type CMG. b. Communications, Plenum Rated: Type CMP, complying with NFPA 262. c. Communications, Riser Rated: Type CMR, complying with UL 1666.
1.06 UTP CABLE HARDWARE A. UTP Cable Connecting Hardware: IDC type, using modules designed for punch-down caps or tools. Cables shall be
terminated with connecting hardware of the same category or higher. B. Connecting Blocks: 110-style for Category 5e. Provide blocks for the number of cables terminated on the block, plus 25
percent spare. Integral with connector bodies, including plugs and jacks where indicated.
1.07 FIRE ALARM WIRE AND CABLE A. General Wire and Cable Requirements: NRTL listed and labeled as complying with NFPA 70, Article 760. B. Signaling Line Circuits: Twisted, shielded pair, size as recommended by system manufacturer.
1. Circuit Integrity Cable: Twisted shielded pair, NFPA 70, Article 760, Classification CI, for power-limited fire alarm signal service Type FPL. NRTL listed and labeled as complying with UL 1424 and UL 2196 for a two-hour rating.
1.08 IDENTIFICATION PRODUCTS A. Comply with TIA-606-B and UL 969 for a system of labeling materials, including label stocks, laminating adhesives, and
inks used by label printers. B. Comply with requirements in Section 26 0553 "Identification for Electrical Systems."
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EXECUTION
1.09 INSTALLATION OF HANGERS AND SUPPORTS A. Comply with requirements in Section 26 0529 "Hangers and Supports for Electrical Systems" for installation of supports for
cables.
1.10 WIRING METHOD A. Install wiring in metal pathways.
1. Minimum conduit size shall be 21 mm (3/4 inch). Control and data-transmission wiring shall not share conduits with other building wiring systems.
2. Comply with requirements in Section 28 0528 "Pathways for Electronic Safety and Security." B. Install conduit, concealed in accessible ceilings, walls, and floors when possible. C. Wiring on Racks and within Enclosures:
1. Bundle, lace, and train conductors to terminal points with no excess and without exceeding manufacturer's limitations on bending radii, but not less than radii specified in BICSI ITSIM's "Cabling Termination Practices" chapter. Cable ties shall not be excessively tightened such that the transmission characteristics of the cable are altered.
2. Separate power-limited and non-power-limited conductors as recommended in writing by manufacturer. 3. Install conductors parallel with or at right angles to sides and back of enclosure. 4. Make all connections with approved crimp-on terminal spade lugs, pressure-type terminal blocks, or plug connectors.
1.11 INSTALLATION OF CONDUCTORS AND CABLES A. Comply with NECA 1 and NFPA 70. B. Conductors: Size according to system manufacturer's written instructions unless otherwise indicated. C. Do not install conductors and cables that are wet, moisture damaged, or mold damaged. D. General Requirements for Cabling:
1. Comply with TIA-568-C.1. 2. Terminate all conductors; no cable shall contain unterminated elements. Make terminations only at indicated outlets,
terminals, and cross-connect and patch panels. Leave a minimum of 150 mm (6 inches) of slack at outlet terminations and coil loosely into box after termination on outlet fitting.
3. Cables may not be spliced. Secure and support cables at intervals not exceeding 760 mm (30 inches) and not more than 150 mm (6 inches) from cabinets, boxes, fittings, outlets, racks, frames, and terminals.
4. Maintain minimum cable bending radius during installation and termination of cables. 5. Do not install bruised, kinked, scored, deformed, or abraded cable. Do not splice cable between termination, tap, or
junction points. Remove and discard cable if damaged during installation and replace it with new cable. 6. Pulling Cable: Comply with BICSI ITSIM, Ch. 4, "Pulling Cable." Monitor cable pull tensions. Do not exceed
manufacturer's rated cable-pulling tension. 7. Riser Cable: Riser cable support intervals shall be in accordance with manufacturer's recommendations.
E. UTP Cable Installation: Install using techniques, practices, and methods that are consistent with Category 5e rating of components and that ensure Category 5e performance of completed and linked signal paths, end to end. 1. Comply with TIA-568-C.2. 2. Install 110-style IDC termination hardware unless otherwise indicated. 3. Do not untwist UTP cables more than 12 mm (1/2 inch) from point of termination to maintain cable geometry.
F. Separation from EMI Sources: 1. Comply with BICSI TDMM and TIA-569-C recommendations for separating unshielded copper voice and data
communication cable from potential EMI sources, including electrical power lines and equipment.
1.12 FIRE ALARM WIRING INSTALLATION A. Comply with NECA 1 and NFPA 72. B. Wiring Method: Install wiring in metal pathway according to Section 28 0528 "Pathways for Electronic Safety and Security."
1. Install plenum cable in environmental air spaces, including plenum ceilings. 2. Fire alarm circuits and equipment control wiring associated with the fire alarm system shall be installed in a
dedicated pathway system. This system shall not be used for any other wire or cable. C. Wiring Method:
1. Cables and pathways used for fire alarm circuits, and equipment control wiring associated with the fire alarm system, may not contain any other wire or cable.
2. Fire-Rated Cables: Use of two-hour, fire-rated fire alarm cables, NFPA 70, Types MI and CI, is not permitted.
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3. Signaling Line Circuits: Power-limited fire alarm cables shall not be installed in the same cable or pathway as signaling line circuits.
D. Wiring within Enclosures: Separate power-limited and non-power-limited conductors as recommended by manufacturer. Install conductors parallel with or at right angles to sides and back of the enclosure. Bundle, lace, and train conductors to terminal points with no excess. Connect conductors that are terminated, spliced, or interrupted in any enclosure associated with the fire alarm system to terminal blocks. Mark each terminal according to the system's wiring diagrams. Make all connections with approved crimp-on terminal spade lugs, pressure-type terminal blocks, or plug connectors.
E. Color Coding: Paint fire alarm system junction boxes and covers red. Conduit used for the fire alarm system to be factory painted red.
1.13 POWER AND CONTROL-CIRCUIT CONDUCTORS A. 120-V Power Wiring: Install according to Section 26 0519 "Low-Voltage Electrical Power Conductors and Cables" unless
otherwise indicated.
1.14 CONNECTIONS A. Comply with requirements in Section 28 3111 "Digital, Addressable Fire-Alarm System" for connecting, terminating, and
identifying wires and cables.
1.15 FIRESTOPPING A. Comply with TIA-569-C, "Firestopping" Annex A.
1.16 GROUNDING A. For communication wiring, comply with J-STD-607-A and with BICSI TDMM's "Grounding, Bonding, and Electrical
Protection" chapter.
1.17 IDENTIFICATION A. Identify system components, wiring, and cabling complying with TIA-606-B. Comply with requirements for identification
specified in Section 26 0553 "Identification for Electrical Systems."
1.18 FIELD QUALITY CONTROL A. Perform the following tests and inspections:
1. Visually inspect UTP and optical-fiber cable jacket materials for NRTL certification markings. Inspect cabling terminations to confirm color coding for pin assignments, and inspect cabling connections to confirm compliance with TIA-568-C.1.
2. Visually inspect cable placement, cable termination, grounding and bonding, equipment and patch cords, and labeling of all components.
3. Test UTP cabling for DC loop resistance, shorts, opens, intermittent faults, and polarity between conductors. Test operation of shorting bars in connection blocks. Test cables after termination but not cross connection.
B. End-to-end cabling will be considered defective if it does not pass tests and inspections.
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END OF SECTION 28 0513
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320163 / Meat Services Remodel 28 0528 - 1 PATHWAYS FOR ELECTRONIC SAFETY AND SECURITY
SECTION 28 0528 PATHWAYS FOR ELECTRONIC SAFETY AND SECURITY
GENERAL
1.01 SUMMARY A. Section Includes:
1. Metal conduits, tubing, and fittings. 2. Surface pathways. 3. Boxes, enclosures, and cabinets.
B. Related Requirements: 1. Section 26 0533 "Raceways and Boxes for Electrical Systems" for conduits, wireways, surface raceways, boxes,
enclosures, cabinets, handholes, and faceplate adapters serving electrical systems.
1.02 DEFINITIONS A. ARC: Aluminum rigid conduit. B. GRC: Galvanized rigid steel conduit. C. IMC: Intermediate metal conduit.
PRODUCTS
1.03 METAL CONDUITS, TUBING, AND FITTINGS A. General Requirements for Metal Conduits and Fittings:
1. Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.
B. GRC: Comply with ANSI C80.1 and UL 6. C. EMT: Comply with ANSI C80.3 and UL 797. D. FMC: Comply with UL 1; zinc-coated steel. E. LFMC: Flexible steel conduit with PVC jacket and complying with UL 360. F. Fittings for Metal Conduit: Comply with NEMA FB 1 and UL 514B.
1. Fittings for EMT: a. Material: Steel. b. Type: Setscrew or compression.
G. Joint Compound for IMC, GRC, or ARC: Approved, as defined in NFPA 70, by authorities having jurisdiction for use in conduit assemblies, and compounded for use to lubricate and protect threaded conduit joints from corrosion and to enhance their conductivity.
1.04 SURFACE PATHWAYS A. General Requirements for Surface Pathways:
1. Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.
B. Surface Metal Pathways: Galvanized steel with snap-on covers complying with UL 5. Manufacturer's standard enamel finish in color selected by Architect.
C. Surface Nonmetallic Pathways: Two- or three-piece construction, complying with UL 5A, and manufactured of rigid PVC with texture and color selected by Architect from manufacturer's standard colors. Product shall comply with UL 94 V-0 requirements for self-extinguishing characteristics.
1.05 BOXES, ENCLOSURES, AND CABINETS A. General Requirements for Boxes, Enclosures, and Cabinets:
1. Comply with TIA-569-B. 2. Boxes, enclosures and cabinets installed in wet locations shall be listed for use in wet locations.
B. Sheet-Metal Outlet and Device Boxes: Comply with NEMA OS 1 and UL 514A. C. Cast-Metal Outlet and Device Boxes: Comply with NEMA FB 1, ferrous alloy, Type FD, with gasketed cover. D. Box extensions used to accommodate new building finishes shall be of same material as recessed box. E. Small Sheet Metal Pull and Junction Boxes: NEMA OS 1.
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F. Cast-Metal Access, Pull, and Junction Boxes: Comply with NEMA FB 1 and UL 1773, cast aluminum or galvanized, cast iron with gasketed cover.
G. Device Box Dimensions: 100 mm square by 60 mm deep (4-inches square by 2-1/8 inches deep). H. Gangable boxes are prohibited. I. Cabinets:
1. NEMA 250,, galvanized-steel box with removable interior panel and removable front, finished inside and out with manufacturer's standard enamel.
2. Hinged door in front cover with flush latch and concealed hinge. 3. Key latch to match panelboards. 4. Metal barriers to separate wiring of different systems and voltage. 5. Accessory feet where required for freestanding equipment.
EXECUTION
1.06 PATHWAY APPLICATION A. Outdoors: Apply pathway products as specified below unless otherwise indicated:
1. Conduit, Aboveground: GRC. 2. Underground Conduit: RNC, Type EPC-40-PVC,. 3. Boxes and Enclosures, Aboveground: NEMA 250, Type 3R.
B. Indoors: Apply pathway products as specified below unless otherwise indicated: 1. Exposed, Not Subject to Physical Damage: EMT. 2. Exposed and Subject to Physical Damage: GRC. Pathway locations include the following:
a. Loading dock. b. Corridors used for traffic of mechanized carts, forklifts, and pallet-handling units. c. Mechanical rooms. d. Gymnasiums
3. Concealed in Ceilings and Interior Walls and Partitions: EMT. 4. Connection to Vibrating Equipment (Including Transformers and Hydraulic, Pneumatic, Electric-Solenoid, or Motor-
Driven Equipment): FMC, except use LFMC in damp or wet locations. 5. Damp or Wet Locations: GRC. 6. Boxes and Enclosures: NEMA 250, Type 1, except use NEMA 250, Type 4 stainless steel in institutional and
commercial kitchens and damp or wet locations. C. Minimum Pathway Size: 21-mm (3/4-inch) trade size. Minimum size for optical-fiber cables is 27 mm (1 inch). D. Pathway Fittings: Compatible with pathways and suitable for use and location.
1. Rigid and Intermediate Steel Conduit: Use threaded rigid steel conduit fittings unless otherwise indicated. Comply with NEMA FB 2.10.
2. PVC Externally Coated, Rigid Steel Conduits: Use only fittings listed for use with this type of conduit. Patch and seal all joints, nicks, and scrapes in PVC coating after installing conduits and fittings. Use sealant recommended by fitting manufacturer and apply in thickness and number of coats recommended by manufacturer.
3. EMT: Use setscrew compression, steel fittings. Comply with NEMA FB 2.10. 4. Flexible Conduit: Use only fittings listed for use with flexible conduit. Comply with NEMA FB 2.20.
E. Do not install aluminum conduits, boxes, or fittings in contact with concrete or earth. F. Install surface pathways only where indicated on Drawings.
1.07 INSTALLATION A. Comply with NECA 1, NECA 101, and TIA-569-B for installation requirements except where requirements on Drawings or
in this article are stricter. Comply with NECA 102 for aluminum pathways. Comply with NFPA 70 limitations for types of pathways allowed in specific occupancies and number of floors.
B. Keep pathways at least 150 mm (6 inches) away from parallel runs of flues and steam or hot-water pipes. Install horizontal pathway runs above water and steam piping.
C. Complete pathway installation before starting conductor installation. D. Comply with requirements in Section 26 0529 "Hangers and Supports for Electrical Systems" for hangers and supports. E. Arrange stub-ups so curved portions of bends are not visible above finished slab. F. Install no more than the equivalent of three 90-degree bends in any conduit run except for communications wiring conduits
for which only two 90-degree bends are allowed. Support within 300 mm (12 inches) of changes in direction.
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G. Conceal conduit and EMT within finished walls, ceilings, and floors unless otherwise indicated. Install conduits parallel or perpendicular to building lines.
H. Support conduit within 300 mm (12 inches) of enclosures to which attached. I. Stub-ups to Above Recessed Ceilings:
1. Use EMT, IMC, or RMC for pathways. 2. Use a conduit bushing or insulated fitting to terminate stub-ups not terminated in hubs or in an enclosure.
J. Threaded Conduit Joints, Exposed to Wet, Damp, Corrosive, or Outdoor Conditions: Apply listed compound to threads of pathway and fittings before making up joints. Follow compound manufacturer's written instructions.
K. Terminate threaded conduits into threaded hubs or with locknuts on inside and outside of boxes or cabinets. Install insulated bushings on conduits terminated with locknuts.
L. Install pathways square to the enclosure and terminate at enclosures with locknuts. Install locknuts hand tight plus 1/4 turn more.
M. Do not rely on locknuts to penetrate nonconductive coatings on enclosures. Remove coatings in the locknut area prior to conduit assembly to assure a continuous ground path.
N. Cut conduit perpendicular to the length. For conduits of 53-mm (2-inch) trade size and larger, use roll cutter or a guide to ensure cut is straight and perpendicular to the length.
O. Install pull wires in empty pathways. Use polypropylene or monofilament plastic line with not less than 90-kg (200-lb) tensile strength. Leave at least 300 mm (12 inches) of slack at each end of pull wire. Cap underground pathways designated as spare above grade alongside pathways in use.
P. Surface Pathways: 1. Install surface pathway with a minimum 50-mm (2-inch) radius control at bend points. 2. Secure surface pathway with screws or other anchor-type devices at intervals not exceeding 1200 mm (36 inches)
and with no less than two supports per straight pathway section. Support surface pathway according to manufacturer's written instructions. Tape and glue are not acceptable support methods.
Q. Install devices to seal pathway interiors at accessible locations. Locate seals so no fittings or boxes are between the seal and the following changes of environments. Seal the interior of all pathways at the following points: 1. Where conduits pass from warm to cold locations, such as boundaries of refrigerated spaces. 2. Where an underground service pathway enters a building or structure. 3. Where otherwise required by NFPA 70.
R. Flexible Conduit Connections: Comply with NEMA RV 3. Use maximum of 1830 mm (72 inches) of flexible conduit for recessed and semirecessed luminaires, equipment subject to vibration, noise transmission, or movement; and for transformers and motors. 1. Use LFMC in damp or wet locations.
S. Mount boxes at heights indicated on Drawings. If mounting heights of boxes are not individually indicated, give priority to ADA requirements. Install boxes with height measured to top of box unless otherwise indicated.
T. Horizontally separate boxes mounted on opposite sides of walls so they are not in the same vertical channel. U. Support boxes of three gangs or more from more than one side by spanning two framing members or mounting on
brackets specifically designed for the purpose. V. Fasten junction and pull boxes to or support from building structure. Do not support boxes by conduits.
1.08 SLEEVE AND SLEEVE-SEAL INSTALLATION FOR ELECTRONIC SAFETY AND SECURITY PENETRATIONS A. Install sleeves and sleeve seals at penetrations of exterior floor and wall assemblies. Comply with requirements in
Section 26 0544 "Sleeves and Sleeve Seals for Electronic Safety and Security Pathways and Cabling."
1.09 FIRESTOPPING A. Install firestopping at penetrations of fire-rated floor and wall assemblies. Comply with requirements in Section 07 8413
"Penetration Firestopping."
1.10 PROTECTION A. Protect coatings, finishes, and cabinets from damage and deterioration.
1. Repair damage to galvanized finishes with zinc-rich paint recommended by manufacturer. 2. Repair damage to PVC coatings or paint finishes with matching touchup coating recommended by manufacturer.
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1.01 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01
Specification Sections, apply to this Section.
1.02 SUMMARY A. Section Includes:
1. Fire-alarm control unit. 2. Manual fire-alarm boxes. 3. System smoke detectors. 4. Air-sampling smoke detectors. 5. Heat detectors. 6. Notification appliances. 7. Magnetic door holders. 8. Remote annunciator. 9. Graphic annunciator. 10. Addressable interface device.
B. Related Requirements: 1. Section 28 0513 "Conductors and Cables for Electronic Safety and Security" for cables and conductors for fire-alarm
systems.
1.03 DEFINITIONS A. EMT: Electrical Metallic Tubing. B. FACP: Fire Alarm Control Panel. C. HLI: High Level Interface. D. NICET: National Institute for Certification in Engineering Technologies. E. PC: Personal computer. F. VESDA: Very Early Smoke-Detection Apparatus.
1.04 SYSTEM DESCRIPTION A. Noncoded, UL-certified addressable system, with multiplexed signal transmission, dedicated to fire-alarm service only.
1.05 PERFORMANCE REQUIREMENTS A. Seismic Performance: Fire-alarm control unit and raceways shall withstand the effects of earthquake motions determined
according to SEI/ASCE 7. 1. The term "withstand" means "the unit will remain in place without separation of any parts from the device when
subjected to the seismic forces specified and the unit will be fully operational after the seismic event."
1.06 ACTION SUBMITTALS A. Product Data: For each type of product indicated B. Shop Drawings: For fire-alarm system.
1. Comply with recommendations and requirements in the "Documentation" section of the "Fundamentals" chapter in NFPA 72.
2. Include voltage drop calculations for notification-appliance circuits. 3. Include battery-size calculations. 4. Include performance parameters and installation details for each detector. 5. Verify that each duct detector is listed for complete range of air velocity, temperature, and humidity possible when
air-handling system is operating. 6. Include plans, sections, and elevations of heating, ventilating, and air-conditioning ducts, drawn to scale and
coordinating installation of duct smoke detectors and access to them. Show critical dimensions that relate to
placement and support of sampling tubes, detector housing, and remote status and alarm indicators. Locate detectors according to manufacturer's written recommendations.
7. Include voice/alarm signaling-service equipment rack or console layout, grounding schematic, amplifier power calculation, and single-line connection diagram.
8. Include floor plans to indicate final outlet locations showing address of each addressable device. Show size and route of cable and conduits.
C. General Submittal Requirements: 1. Submittals shall be approved by authorities having jurisdiction prior to submitting them to Architect. 2. Shop Drawings shall be prepared by persons with the following qualifications:
a. Trained and certified by manufacturer in fire-alarm system design. b. NICET-certified, fire-alarm technician; Level III minimum. c. Licensed or certified by authorities having jurisdiction.
D. Delegated-Design Submittal: For notification appliances and smoke and heat detectors, in addition to submittals listed above, indicate compliance with performance requirements and design criteria, including analysis data signed and sealed by the qualified professional engineer responsible for their preparation. 1. Drawings showing the location of each smoke and heat detector, ratings of each, and installation details as needed
to comply with listing conditions of the detector. 2. Design Calculations: Calculate requirements for selecting the spacing and sensitivity of detection, complying with
NFPA 72.
1.07 INFORMATIONAL SUBMITTALS A. Seismic Qualification Certificates: For fire-alarm control unit, accessories, and components, from manufacturer.
1. Basis for Certification: Indicate whether withstand certification is based on actual test of assembled components or on calculation.
2. Dimensioned Outline Drawings of Equipment Unit: Identify center of gravity and locate and describe mounting and anchorage provisions.
3. Detailed description of equipment anchorage devices on which the certification is based and their installation requirements.
B. Field quality-control reports.
1.08 CLOSEOUT SUBMITTALS A. Operation and Maintenance Data: For fire-alarm systems and components to include in emergency, operation, and
maintenance manuals.In addition to items specified in Section 01 7823 "Operation and Maintenance Data," include the following and deliver copies to authorities having jurisdiction: 1. Comply with the "Records" section of the "Inspection, Testing and Maintenance" chapter in NFPA 72. 2. Provide " Record of Completion Documents" according to the "Completion Documents" Article in the
"Documentation" section of the "Fundamentals" chapter in NFPA 72. 3. Record copy of site-specific software. 4. Provide "Inspection and Testing Form" according to the "Inspection, Testing and Maintenance" chapter in NFPA 72,
and include the following: a. Frequency of testing of installed components. b. Frequency of inspection of installed components. c. Requirements and recommendations related to results of maintenance. d. Manufacturer's user training manuals.
5. Manufacturer's required maintenance related to system warranty requirements. 6. Abbreviated operating instructions for mounting at fire-alarm control unit. 7. Copy of NFPA 25. 8. Field redlines showing:
a. Routing of new conduits b. Location of all devices, relays, control modules, j-boxes, etc. c. Device connection order d. Device addresses e. Battery calculations f. Visual device candela rating g. Audible device sound pressure rating and setting h. I/O matrix i. FCPS location and number
9. The following information in digital (.pdf and AutoCad .dwg) and one hardcopy:
a. Field redline information indicated above b. Equipment and device cutsheets c. Panel programming information d. Device point report
1.09 MAINTENANCE MATERIAL SUBMITTALS A. Furnish extra materials that match products installed and that are packaged with protective covering for storage and
identified with labels describing contents. 1. Lamps for Remote Indicating Lamp Units: Quantity equal to 10 percent of amount installed, but no fewer than one
unit. 2. Lamps for Strobe Units: Quantity equal to 10 percent of amount installed, but no fewer than one unit. 3. Smoke Detectors and Fire Detectors: Quantity equal to 10 percent of amount of each type installed, but no fewer
than one unit of each type. 4. Detector Bases: Quantity equal to two percent of amount of each type installed, but no fewer than one unit of each
type. 5. Keys and Tools: One extra set for access to locked or tamperproofed components. 6. Audible and Visual Notification Appliances: One of each type installed.
1.10 QUALITY ASSURANCE A. Installer Qualifications: Personnel shall be trained and certified by manufacturer for installation of units required for this
Project. B. Source Limitations for Fire-Alarm System and Components: Obtain fire-alarm system from single source from single
manufacturer. Components shall be compatible with, and operate as, an extension of existing system. C. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing
agency, and marked for intended location and application. D. NFPA Certification: Obtain certification according to NFPA 72 by a UL-listed alarm company.
1.11 PROJECT CONDITIONS A. Perform a full test of the existing system prior to starting work. Document any equipment or components not functioning as
designed. B. Interruption of Existing Fire-Alarm Service: Do not interrupt fire-alarm service to facilities occupied by Owner or others
unless permitted under the following conditions and then only after arranging to provide temporary guard service according to requirements indicated: 1. Notify Owner no fewer than two weeks in advance of proposed interruption of fire-alarm service. 2. Do not proceed with interruption of fire-alarm service without Owner's written permission.
C. Use of Devices during Construction: Protect devices during construction unless devices are placed in service to protect the facility during construction.
1.12 SEQUENCING AND SCHEDULING A. Existing Fire-Alarm Equipment: Maintain existing equipment fully operational until new equipment has been tested and
accepted. As new equipment is installed, label it "NOT IN SERVICE" until it is accepted. Remove labels from new equipment when put into service, and label existing fire-alarm equipment "NOT IN SERVICE" until removed from the building.
B. Equipment Removal: After acceptance of new fire-alarm system, remove existing disconnected fire-alarm equipment and wiring.
PART 2 - PRODUCTS
2.01 MANUFACTURERS A. Manufacturers: Subject to compliance with Utah’s DFCM requirements , provide products by one of the following:
1. Silent Knight 2. Fire-Lite 3. All other manufacturers shall be approved by the DFCM Director
2.02 FIRE-ALARM CONTROL UNIT A. General Requirements for Fire-Alarm Control Unit:
1. Field-programmable, microprocessor-based, modular, power-limited design with electronic modules, complying with UL 864 and listed and labeled by an NRTL. a. System software and programs shall be held in nonvolatile flash, electrically erasable, programmable, read-
only memory, retaining the information through failure of primary and secondary power supplies. b. Include a real-time clock for time annotation of events on the event recorder and printer.
2. Addressable Initiation Device Circuits: The FACP shall indicate which communication zones have been silenced and shall provide selective silencing of alarm notification appliance by building communication zone.
3. Addressable Control Circuits for Operation of Mechanical Equipment. B. Alphanumeric Display and System Controls: Arranged for interface between human operator at fire-alarm control unit and
addressable system components including annunciation and supervision. Display alarm, supervisory, and component status messages and the programming and control menu.
C. Circuits: 1. Initiating Device, Notification Appliance, and Signaling Line Circuits: NFPA 72, Class A.
a. Initiating Device Circuits: Style D. b. Notification Appliance Circuits: Style Z. c. Signaling Line Circuits: Style 7. d. Install no more than 75% of loop capacity’s addressable devices on each signaling line circuit.
D. Notification-Appliance Circuit: 1. Audible appliances shall sound in a three-pulse temporal pattern, as defined in NFPA 72. 2. Visual alarm appliances shall flash in synchronization where multiple appliances are in the same field of view, as
defined in NFPA 72. E. Voice/Alarm Signaling Service: Central emergency communication system with redundant microphones, preamplifiers,
amplifiers, and tone generators provided in a separate cabinet located in the fire command center. 1. Indicate number of alarm channels for automatic, simultaneous transmission of different announcements to different
zones or for manual transmission of announcements by use of the central-control microphone. Amplifiers shall comply with UL 1711. a. Allow the application of, and evacuation signal to, indicated number of zones and, at the same time, allow
voice paging to the other zones selectively or in any combination. b. Programmable tone and message sequence selection. c. Standard digitally recorded messages for "Evacuation" and "All Clear." d. Generate tones to be sequenced with audio messages of type recommended by NFPA 72 and that are
compatible with tone patterns of notification-appliance circuits of fire-alarm control unit. 2. Status Annunciator: Indicate the status of various voice/alarm speaker zones and the status of firefighters' two-way
telephone communication zones. 3. Preamplifiers, amplifiers, and tone generators shall automatically transfer to backup units, on primary equipment
failure. F. Primary Power: 24-V dc obtained from 120-V ac service and a power-supply module. Initiating devices, notification
appliances, signaling lines, and trouble signals shall be powered by 24-V dc source. 1. Alarm current draw of entire fire-alarm system shall not exceed 80 percent of the power-supply module rating.
G. Secondary Power: 24-V dc supply system with batteries, automatic battery charger, and automatic transfer switch. 1. Batteries:
a. Sealed lead calcium. b. Minimum capacity:
1) Comply with NFPA 72. c. Door holders are not connected to batteries. Doors release upon loss of power. d. Nominal Life: 5 years minimum.
2.03 MANUAL FIRE-ALARM BOXES A. General Requirements for Manual Fire-Alarm Boxes: Comply with UL 38. Boxes shall be finished in red with molded,
raised-letter operating instructions in contrasting color; shall show visible indication of operation; and shall be mounted on recessed outlet box. If indicated as surface mounted, provide manufacturer's surface back box. 1. Double-action mechanism requiring two actions to initiate an alarm, breaking-glass or plastic-rod pull-lever type; with
integral addressable module arranged to communicate manual-station status (normal, alarm, or trouble) to fire-alarm control unit.
2. Station Reset: Key- or wrench-operated switch.
2.04 SYSTEM SMOKE DETECTORS A. General Requirements for System Smoke Detectors:
1. Comply with UL 268; operating at 24-V dc, nominal. 2. Detectors shall be two-wire type. 3. Integral Addressable Module: Arranged to communicate detector status (normal, alarm, or trouble) to fire-alarm
control unit. 4. Base Mounting: Detector and associated electronic components shall be mounted in a twist-lock module that
connects to a fixed base. Provide terminals in the fixed base for connection to building wiring. 5. Self-Restoring: Detectors do not require resetting or readjustment after actuation to restore them to normal operation. 6. Integral Visual-Indicating Light: LED type, indicating detector has operated and power-on status. 7. Remote Control: Unless otherwise indicated, detectors shall be digital-addressable type, individually monitored at
fire-alarm control unit for calibration, sensitivity, and alarm condition. a. Rate-of-rise temperature characteristic of combination smoke- and heat-detection units shall be selectable at
fire-alarm control unit for 8 or 11 deg C (15 or 20 deg F) per minute. b. Fixed-temperature sensing characteristic of combination smoke- and heat-detection units shall be independent
of rate-of-rise sensing and shall be settable at fire-alarm control unit to operate at 57 or 68 deg C (135 or 155 deg F).
B. Photoelectric Smoke Detectors: 1. Detector address shall be accessible from fire-alarm control unit and shall be able to identify the detector's location
within the system and its sensitivity setting. 2. An operator at fire-alarm control unit, having the designated access level, shall be able to manually access the
following for each detector: a. Primary status. b. Device type. c. Present average value. d. Present sensitivity selected. e. Sensor range (normal, dirty, etc.).
C. Duct Smoke Detectors: Photoelectric type complying with UL 268A. 1. Detector address shall be accessible from fire-alarm control unit and shall be able to identify the detector's location
within the system and its sensitivity setting. 2. An operator at fire-alarm control unit, having the designated access level, shall be able to manually access the
following for each detector: a. Primary status. b. Device type. c. Present average value. d. Present sensitivity selected. e. Sensor range (normal, dirty, etc.).
3. Weatherproof Duct Housing Enclosure: NEMA 250, Type 4X; NRTL listed for use with the supplied detector for smoke detection in HVAC system ducts.
4. Each sensor shall have multiple levels of detection sensitivity. 5. Sampling Tubes: Design and dimensions as recommended by manufacturer for specific duct size, air velocity, and
installation conditions where applied. 6. Relay Fan Shutdown: Fully programmable relay rated to interrupt fan motor-control circuit.
2.05 HEAT DETECTORS A. General Requirements for Heat Detectors: Comply with UL 521.
1. Temperature sensors shall test for and communicate the sensitivity range of the device. B. Heat Detector, Combination Type: Actuated by either a fixed temperature of 57 deg C (135 deg F) or a rate of rise that
exceeds 8 deg C (15 deg F) per minute unless otherwise indicated. 1. Mounting: Twist-lock base interchangeable with smoke-detector bases. 2. Integral Addressable Module: Arranged to communicate detector status (normal, alarm, or trouble) to fire-alarm
control unit. 3. Signals to Fire-Alarm Control Unit: Any type of local system trouble shall be reported to fire-alarm control unit as a
composite "trouble" signal. Alarms on each detection zone shall be individually reported to central fire-alarm control unit as separately identified zones.
2.06 NOTIFICATION APPLIANCES A. General Requirements for Notification Appliances: Connected to notification-appliance signal circuits, zoned as indicated,
equipped for mounting as indicated, and with screw terminals for system connections.
1. Combination Devices: Factory-integrated audible and visible devices in a single-mounting assembly, equipped for mounting as indicated, and with screw terminals for system connections.
B. Horns: Electric-vibrating-polarized type, 24-V dc; with provision for housing the operating mechanism behind a grille. Comply with UL 464. Horns shall produce a sound-pressure level of
C. 90 dBA, measured 3 m (10 feet) from the horn, using the coded signal prescribed in UL 464 test protocol. D. Visible Notification Appliances: Xenon strobe lights complying with UL 1971, with clear or nominal white polycarbonate lens
mounted on an aluminum faceplate. The word "FIRE" is engraved in minimum 25-mm- (1-inch-) high letters on the lens. 1. Rated Light Output:
a. 15/30/75/110 cd, selectable in the field. 2. Mounting: Wall mounted unless otherwise indicated. 3. Flashing shall be in a temporal pattern, synchronized with other units. 4. Strobe Leads: Factory connected to screw terminals. 5. Mounting Faceplate: Factory finished, red.
E. Voice/Tone Notification Appliances: 1. Comply with UL 1480. 2. Speakers for Voice Notification: Locate speakers for voice notification to provide the intelligibility requirements of the
"Notification Appliances" and "Emergency Communications Systems" chapters in NFPA 72. 3. High-Range Units: Rated 2 to 15 W. 4. Low-Range Units: Rated 1 to 2 W. 5. Mounting: Flush semirecessed or surface mounted and bidirectional. 6. Matching Transformers: Tap range matched to acoustical environment of speaker location.
F. Exit Marking Audible Notification Appliance: 1. Exit marking audible notification appliances shall meet the audibility requirements in NFPA 72. 2. Provide exit marking audible notification appliances at the entrance to all building exits.
2.07 MAGNETIC DOOR HOLDERS A. Description: Units are equipped for wall or floor mounting as indicated and are complete with matching doorplate.
1. Electromagnets: Require no more than 3 W to develop 111-N (25-lbf) holding force. 2. Wall-Mounted Units: Flush mounted unless otherwise indicated. 3. Rating: 24-V ac or dc.
B. Material and Finish: Match door hardware.
2.08 REMOTE ANNUNCIATOR A. Description: Annunciator functions shall match those of fire-alarm control unit for alarm, supervisory, and trouble
indications. Manual switching functions shall match those of fire-alarm control unit, including acknowledging, silencing, resetting, and testing. 1. Mounting: Flush cabinet, NEMA 250, Type 1.
B. Display Type and Functional Performance: Alphanumeric display and LED indicating lights shall match those of fire-alarm control unit. Provide controls to acknowledge, silence, reset, and test functions for alarm, supervisory, and trouble signals.
2.09 ADDRESSABLE INTERFACE DEVICE A. Description: Microelectronic monitor module, NRTL listed for use in providing a system address for alarm-initiating devices
for wired applications with normally open contacts. B. Integral Relay: Capable of providing a direct signal to elevator controller to BMS system to initiate fan shutdown.
2.10 FIRE ALARM WIRE AND CABLE A. General Wire and Cable Requirements: NRTL listed and labeled as complying with NFPA 70, Article 760. B. Signaling Line Circuits: Twisted, shielded pair, size as recommended by manufacturer, but no less than No. 18 AWG.
1. Circuit Integrity Cable: Twisted shielded pair, NFPA 70, Article 760, Classification CI, for power-limited fire alarm signal service Type FPL. NRTL listed and labeled as complying with UL 1424 and UL 2196 for a 2-hour rating.
3.01 EXAMINATION A. Examine areas and conditions for compliance with requirements for ventilation, temperature, humidity, and other conditions
affecting performance of the Work. 1. Verify that manufacturer's written instructions for environmental conditions have been permanently established in
spaces where equipment and wiring are installed, before installation begins. B. Examine roughing-in for electrical connections to verify actual locations of connections before installation. C. Proceed with installation only after unsatisfactory conditions have been corrected.
3.02 EQUIPMENT INSTALLATION A. Comply with NFPA 72, NFPA 101, and requirements of authorities having jurisdiction for installation and testing of fire-
alarm equipment. Install all electrical wiring to comply with requirements in NFPA 70 including, but not limited to, Article 760, "Fire Alarm Systems." 1. Devices installed but not yet placed in service shall be protected from construction dust, debris, dirt, moisture, and
damage according to manufacturer's written storage instructions. B. Connecting to Existing Equipment: Verify that existing fire-alarm system is operational before making changes or
connections. 1. Connect new equipment to existing NAC panel in existing part of the building.
C. Manual Fire-Alarm Boxes: 1. Install manual fire-alarm box in the normal path of egress within 1520 mm (60 inches) of the exit doorway.
D. Smoke- or Heat-Detector Spacing: 1. Comply with the "Smoke-Sensing Fire Detectors" section in the "Initiating Devices" chapter in NFPA 72, for smoke-
detector spacing. 2. Comply with the "Heat-Sensing Fire Detectors" section in the "Initiating Devices" chapter in NFPA 72, for heat-
detector spacing. 3. Smooth ceiling spacing shall not exceed 9 m (30 feet). 4. Spacing of detectors for irregular areas, for irregular ceiling construction, and for high ceiling areas shall be
determined according to Annex A in NFPA 72. 5. HVAC: Locate detectors not closer than 910 mm (36 inches)) from air-supply diffuser or return-air opening. 6. Lighting Fixtures: Locate detectors not closer than 300 mm (12 inches) from any part of a lighting fixture and not
directly above pendant mounted or indirect lighting. E. Install a cover on each smoke detector that is not placed in service during construction. Cover shall remain in place except
during system testing. Remove cover prior to system turnover. F. Duct Smoke Detectors: Comply with NFPA 72 and NFPA 90A. Install sampling tubes so they extend the full width of duct.
Tubes more than 9100 mm (36 inches) long shall be supported at both ends. G. Audible Alarm-Indicating Devices: Install not less than 150 mm (6 inches) below the ceiling. Install bells and horns on flush-
mounted back boxes with the device-operating mechanism concealed behind a grille. Install all devices at the same height unless otherwise indicated.
H. Visible Alarm-Indicating Devices: Install adjacent to each alarm bell or alarm horn and at least 150 mm (6 inches) below the ceiling. Install all devices at the same height unless otherwise indicated.
I. Device Location-Indicating Lights: Locate in public space near the device they monitor.
3.03 PATHWAYS A. Pathways shall be installed in EMT.
3.04 CONNECTIONS A. Make addressable connections with a supervised interface device to the following devices and systems. Install the
interface device less than 910 mm (36 inches) from the device controlled. Make an addressable confirmation connection when such feedback is available at the device or system being controlled. 1. Magnetically held-open doors. 2. Alarm-initiating connection to activate emergency shutoffs for gas and fuel supplies. 3. Supervisory connections at valve supervisory switches. 4. Supervisory connections at low-air-pressure switch of each dry-pipe sprinkler system.
3.05 IDENTIFICATION A. Identify system components, wiring, cabling, j-boxes, and terminals. Comply with requirements for identification specified
in Division 26 Section "Identification for Electrical Systems."
3.06 GROUNDING A. Ground fire-alarm control unit and associated circuits; comply with IEEE 1100. Install a ground wire from main service
ground to fire-alarm control unit.
3.07 FIELD QUALITY CONTROL A. Field tests shall be witnessed by authorities having jurisdiction. B. Manufacturer's Field Service: Engage a factory-authorized service representative to test and inspect components,
assemblies, and equipment installations, including connections. C. Perform tests and inspections.
1. Manufacturer's Field Service: Engage a factory-authorized service representative to inspect components, assemblies, and equipment installations, including connections, and to assist in testing.
D. Tests and Inspections: 1. Visual Inspection: Conduct visual inspection prior to testing.
a. Inspection shall be based on completed Record Drawings and system documentation that is required by NFPA 72 in its "Completion Documents, Preparation" Table in the "Documentation" Section of the "Fundamentals of Fire Alarm Systems" Chapter.
b. Comply with "Visual Inspection Frequencies" Table in the "Inspection" Section of the "Inspection, Testing and Maintenance" Chapter in NFPA 72; retain the "Initial/Reacceptance" column and list only the installed components.
c. Visual inspection of all devices and conduits d. Visual inspection of strobe annunciation coverage
E. System Testing: Comply with the "Test Methods" table in the "Testing" section of the "Inspection, Testing and Maintenance" chapter in NFPA 72. 1. Test audible appliances for the public operating mode according to manufacturer's written instructions. Perform the
test using a portable sound-level meter complying with Type 2 requirements in ANSI S1.4. 2. Test audible appliances for the private operating mode according to manufacturer's written instructions. 3. Test visible appliances for the public operating mode according to manufacturer's written instructions. 4. Factory-authorized service representative shall prepare the "Fire Alarm System Record of Completion" in the
"Documentation" section of the "Fundamentals" chapter in NFPA 72 and the "Inspection and Testing Form" in the "Records" section of the "Inspection, Testing and Maintenance" chapter in NFPA 72.
5. Sound level tests: Measure and verify min/max sound levels F. Reacceptance Testing: Perform reacceptance testing to verify the proper operation of added or replaced devices and
appliances. G. Fire-alarm system will be considered defective if it does not pass tests and inspections. H. Prepare test and inspection reports. I. Maintenance Test and Inspection: Perform tests and inspections listed for weekly, monthly, quarterly, and semiannual
periods. Use forms developed for initial tests and inspections.
3.08 DEMONSTRATION A. Train owner's maintenance personnel to adjust, operate, and maintain fire-alarm system.