THE KEY RELATIONSHIPS BETWEEN FIRE CODES, NEW YORK AST REGULATIONS AND SPCC PLANS Presented by: Joyce A. Rizzo President JD2 Environmental, Inc. 800 East Washington Street West Chester, PA 19380 www.jd2env.com
THE KEY RELATIONSHIPS BETWEEN FIRE CODES, NEW
YORK AST REGULATIONSAND
SPCC PLANS
Presented by:Joyce A. Rizzo
PresidentJD2 Environmental, Inc.
800 East Washington StreetWest Chester, PA 19380
www.jd2env.com
SPCC LANGUAGE
The SPCC rules were significantly updated in January 2010 from the very general requirements of the 1973 original rules.
But the rules are still conceptual with respect to most aspects and basically do not include design or engineering specifications.
Technical determinations are basically the responsibility of the certifying engineer.
112.3(d) Professional Engineer (P.E.) Certification
P.E must attest that:
The P.E. is familiar with requirements.
The P.E. or his/her agent has visited the facility.
The Plan is prepared in accordance with good engineering practice, consistent with applicable industry standards and 40 CFR 112.
Procedures for inspections and testing have been established.
The Plan is adequate for the facility.
WHERE ARE INDUSTRY STANDARDS USED?
Industry standards and good engineering practice are used in many aspects of plans –three key areas are:
Evaluation of proper container/tank and piping design.
Evaluation of secondary containment effectiveness.
Methods to evaluate container/tank integrity.
WHERE ARE INDUSTRY STANDARDS USED?
Evaluation of proper container/tank and piping design - key:
Applicable materials of construction and product compatibility
Corrosion protection
Overfill and spill prevention
Venting
Piping supports
KEY FIRE CODES
NATIONAL FIRE PROTECTION ASSOCIATION (NFPA) STANDARDS
NFPA 30, “Flammable and Combustible Liquids Code”
NFPA 30A, “Code for Motor Fuel Dispensing Facilities and Repair Garages”
International Fire Code (IFC)
KEY STANDARDS REFERENCED BY FIRE CODES
STEEL TANK INSTITUTE (STI) STANDARDS
STI SP001, “Standard for Inspection of Aboveground Storage Tanks”
F921 – Double-wall Steel Tanks
F911 – Steel tanks in Dikes
KEY STANDARDS REFERENCED BY FIRE CODES
PETROLEUM EQUIPMENT INSTITUTE (PEI)
PEI/RP 200, “Recommended Practices for Installation of Aboveground Storage Systems for Motor Vehicle Fueling.”
AMERICAN PETROLEUM INSTITUTE (API) STANDARDS
Recommended Practice 653, “Tank Inspection, Repair, Alteration and Reconstruction”
Applicable UL Standards UL 142 – Steel Aboveground Tanks for Flammable and
Combustible Liquids – Typical for Oil Tanks Steel Aboveground Tank like Lube Cubes Other double-wall steel tanks Single-wall steel tanks in steel secondary containment
UL 2085 - Standard for Protected Aboveground Tanks for Flammable and Combustible Liquids – Typical for Gasoline and Diesel Ballistics and Impact protection Both the inner and outer steel tanks are built to UL
standards
UL 80 - Standard for Steel Tanks for Oil-Burner Fuels and Other Combustible Liquids
FIRE CODES AND INDUSTRY STANDARDS
The key difference between the use of fire codes and other industry standards is that fire codes are typically adopted as state laws or regulations; standards are referenced.
In addition, 112.7(j) specifies that plans include conformance with more stringent state rules.
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
New York state has one of the most comprehensive AST regulations in the country.
The AST rules have been effective since late 1985 and recently updated as of October 11, 2015.
When developing an SPCC Plan in NY, you must also incorporate the applicable state requirements.
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
The NY regulations have specific tank design codes and standards for ASTs >60 gallons installed since December 27, 1986. Referenced date-specific UL, API and
ULC codes based on date of installation.
Corrosion protection, as applicable
Materials of construction based on the product stored.
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
NY secondary requirements are compatible with SPCC requirements.
There are specific technical requirements for piping systems including underground piping for ASTs.
Overfill prevention equipment – gauge or equivalent
Testing/inspection before operation.
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
Shear valves on supply inlets of dispensers for pressurized pumping
Gravity fed systems with solenoid valves.
Check valves on fill piping.
Operating valves per NFPA 30
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
Spill & Overfill Prevention – more specific than any of the 40 CFR 112 requirements
Transfer procedures per NFPA 385 or API RP 1007 with delivery standards, i.e., available space, monitoring – applicable to 112.7(a)(3)(ii).
Report, investigate and cleanup spills and overfills
Labeling must include registration ID, design & working capacity and product color code per API.
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
Specific operation and maintenance requirements:
Compatibility
Corrosion protection
Repairs
Stormwater controls, i.e., 112.8(b)
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
Inspections and Leak Detection
Specific Monthly inspections Tanks pre-1987, 10-Year Certified* inspections
for tanks >10,000-gallons and or close to sensitive receptors
Underground piping:• Pre-1987, test every 10-years (less stringent
than 40 CFR 280)• After 1986, line leak detector for pressurized
piping
* SP001 or API 653
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
Reporting, Investigation & Confirmation
Report to Spill Hotline within 2 hours after discovery – more stringent than SPCC requirements
NYSDEC requirements must be integrated into the SPCC spill reporting sections of the Plan.
NEW YORK 6 NYCRR 613-4 AST SYSTEMS
Two-hour reporting exceptions:
Less than 5 gallons;
Contained and under control;
Not reached and will not reach land or waters of the state; and
It is cleaned up within 2 hours after discovery
ABOVEGROUND TANK TYPES CONSTRUCTION STANDARDS
NFPA 30 requires atmospheric tanks to be designed and constructed in accordance with one of several recognized engineering standards, one of which is the UL 142.
The International Fire Code in turn requires tanks to be designed, constructed and installed in accordance with NFPA 30.
ABOVEGROUND TANK TYPES (30:22.2.1 AND 30A: 3.3.15)
Fire Resistant Tank: An atmospheric aboveground storage tank with thermal insulation that has been evaluated for resistance to physical damage and for limiting the heat transferred to the primary tank when exposed to a hydrocarbon fuel fire and is listed in accordance with UL 2080.
ABOVEGROUND TANK TYPES (30:22.2.3 AND 30A: 3.3.15)
Protected Aboveground Tank: An atmospheric aboveground storage tank with integral secondary containment and thermal insulation that has been evaluated for resistance to physical damage and for limiting the heat transferred to the primary tank when exposed to a hydrocarbon pool fire and is listed in accordance UL 2085.
NFPA 30 Key References
Installation Requirements
Control of Spillage
Normal and Emergency Venting
Corrosion Control
Tank Construction
Supports and Foundation
Flooding
Testing and Maintenance
SPCC SECONDARY CONTAINMENT 112.8(c)
(2) Construct all bulk storage tank installations with a secondary means of containment for the entire capacity of the largest single container and sufficient freeboard to contain precipitation.
Dikes, containment curbs and pits
Ensure that areas are sufficiently impervious to contain discharged oil.
Alternate: drainage trench enclosure so that any discharge will terminate and be safely confined in a facility catchment basin or holding pond.
NFPA 30 SECONDARY CONTAINMENT Historically, even since the early 1900’s,
NFPA 30 has required “diking”.
The concept of “diking” is “walls” between tanks: To deter the movement of a fire from one tank
to another
With an permeable dike floor so that released product would not accumulate and fuel a fire
Environmental regulations have always directly conflicted with this concept.
NFPA 30 Key References
Secondary Containment (SC)
SC tanks for spill control, in addition to diking or remote impounding. [22.11]
Prevent release by siphon flow [22.11.4.3].
All pipe connections above normal maximum liquid level [30A: 4.3.6.1].
Enclosed SC must have emergency vents [22.11.4.8]
Interstitial space must be tested with air or vacuum to assure integrity [21.5.2]
For an OnGround AST Like this, how far under the AST does the foundation go?Is the “Dike” Impermeable?
SPCC CORROSION PROTECTION REFERENCES Bulk Storage Containers [112.8 (c)]:
(4) Protect any completely buried metallic storage tank installed on or after January 10, 1974 from corrosion by coatings or cathodic protection compatible with local soil conditions. You must regularly leak test such completely buried metallic storage tanks.
(5) Not use partially buried or bunkered metallic tanks for the storage of oil, unless you protect the buried section of the tank from corrosion. You must protect partially buried and bunkered tanks from corrosion by coatings or cathodic protection compatible with local soil conditions.
SPCC CORROSION PROTECTION REFERENCES
(d) Facility transfer operations, pumping, and facility process.
(1) Provide buried piping that is installed or replaced on or after August 16, 2002, with a protective wrapping and coating.
Cathodically protect buried piping installations or otherwise satisfy the corrosion protection standards for piping using40 CFR 280 or state 40 CFR 281
If a section of buried line is exposed - carefully inspect it for deterioration. If you find corrosion damage - undertake additional examination and corrective action in accordance with the magnitude of the damage.
NFPA 30A CORROSION PROTECTION 4.3.8
Any portion of tank/piping in contact with soil: Properly engineered Installed Maintained corrosion protection
STI Standards RP 892 Underground piping RP-01-69 External corrosion RP 1632 – CP USTs
Internal protection – protective coatings and linings
NFPA 30A Key References4.3.7 – Physical Protection
6 ft. high security fence At least 10 feet from tank and
A gate properly secured against unauthorized entry unless property has a secured perimeter fence.
Provide protection against vehicular collision by suitable barriers, such as 4-inch diameter steel pipe filled with concrete set 3 ft. deep in a concrete footing and spaced no more than 4 feet apart.
Other approved means to protect against vehicular damage includes vehicle resistance testing such as that provided by UL 2085 for protected tanks
SPCC Requirement for Overfill – 112.8(c)(8) Engineer or update with good
engineering practice to avoid discharges - provide at least one of the following devices:
(i) High liquid level alarms with an audible or visual signal
(ii) High liquid level pump cutoff devices set to stop flow at a predetermined level.
(iii) Direct audible or code signal communication between the container gauge and the pumping station.
SPCC Requirement for Overfill – 112.8(c)
(8) (iv) A fast response system for determining the liquid level of each bulk storage container such as digital computers, telepulse, or direct vision gauges. If you use this alternative, a person must be present to monitor gauges and the overall filling of bulk storage containers.
(v) You must regularly test liquid level sensing devices to ensure proper operation.
NFPA 30A Key References
Overfill/Spill Prevention 4.3.6.3
Alarm @ 90% capacity AND
Automatic shut-off @98% or restricted flow @95% capacity AND
Means to determine liquid level shall be accessible to delivery operator (4.3.6.2).
Overfill Prevention:NFPA 30A v SPCC Minimum Requirements
NFPA 30A is more stringent than the SPCC requirements which specifies a choice of the same type of requirements.
Under 112.7(j), more stringent requirements would apply if they are codified by the state.
The P.E. typically defaults to the more stringent fire code requirements.
Typical Overfill prevention valve installed in fill – as level in the AST rises, the valve floats up and closes the fill – typically set at 95% capacity.
PROPER PLACEMENT OF TANKS
Distance From Buildings
Distance From Property Lines
Distance from Dispensers
Spacing Between Tanks
NFPA 30A Key References – Separation Distances
Protected Tank, less than 6,000 gallons:
15 ft. from property line
5 ft. from building or public way
3 ft. between each tank
0 ft. from fuel dispensers
NFPA 30A Key References – Separation Distances
Protected Tank, more than 6,000 gallons:
25 ft. from property line
15 ft. from building or public way
3 ft. between each tank
0 ft. from fuel dispensers