` Coral-Team 2001 Spring Presentation Coral University of Hawaii School of Engineering ArchitectureGuido Zimmermann Marcel Schuler University of applied.

`Coral-Team 2001Spring Presentation

Coral University of HawaiiSchool of Engineering

Architecture Guido ZimmermannMarcel SchulerUniversity of applied siences Aargau, Switzerland

Engineering Sarah DiegnanStanford University, California

Constuction Chunyan GeStanford University, California

Owner Chad Green

`Coral-Team 2001Spring Presentation Site information

Climate (Temperature and precipitation)

9595(temperature)(temperature)

5050(temperature)(temperature)

0.2inch/day(Precipitation)

•Finish foundation before Nov.

•Material suit for humid and warm weather.

HawaiiHonolulu

`Coral-Team 2001Spring Presentation Site Challenges

A-E

E-CC-A

A-E-C

`Coral-Team 2001Spring Presentation Decision Matrix

Solution Pros Cons

SMRF Simple Design, symmetricFlexible, Central Circulation Quick to erect

CantileverNo reference to the locationCost more than EBF

EBF Core Lateral Load PathFlexible, Central Circulation More connection

Details, CantileverNo reference to the location Cost less

Shear Wall Core

Utilizes Stair-wellArrangement of the rooms analogous to utilization Easy material accessibility

Accidental TorsionRequire additional formwork

Timber

UnexploredArrangement of the rooms analogous to utilizationCost less when space is small

Fear of the unknownNot good for big space, need consider life cost

Architect Engineer Construction Manager


Design Considerations

Analysis:

Vision of a future school system

Information technology

Going wireless

Think-Tank


Floor 1

Floor 2

Floor 3

FacultySchool (Class. Lab)AuditoriumTechnicalEmergency ExitRestroomVertical CirculationCirculation

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Architect


Volume

Model

Organisation model

3D-Animation

Volume Model

`Coral-Team 2001Spring Presentation Building and site

Facade / Sunprotection

Movie01

Outside


Movie02 Outside

Building and site



Movie03 Outside

Building and site



Plan Floor 01

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FacultySchool (Class. Lab)AuditoriumTechnicalEmergency ExitRestroomVertical CirculationCirculationL

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Movie04 Floor1

Floor 1

Entrance


Plan Floor 02

Floor 2


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Movie05 Floor2

Floor 2

Seminar rooms / Student offices


Student

Floor 2+3

Seminar rooms / Student offices


Plan Floor 03

Floor 3


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Movie07 Floor3

Floor 3

Main vertical circulation / Faculty block


Lateral LoadEarthquake – Zone 4

Duel System

Period = .294 seconds

Base Shear = 465 kips

Gravity

Design Dead Load = 100 psf

Design Live Load = 70 psf

Response Spectrum

0

0.2

0.4

0.6

0.8

1

1.2

0 1 2 3 4 5

Design Loads

3”

12”

5.5” thick Lightweight Concrete

Composite Cast-in-Place Slab

`Coral-Team 2001Spring Presentation Floor 0

Gravity Columns W14X43 Shear Walls t=12”

SMRF Columns W14X53

Retaining Wall

#8 Bars and

Dowels

#9 bars @ 8” O.C.

21” Mat Foundation

t=10”



SMRF Columns W14X53 Stairs

Floor Beams W14X30

Girders W16X31




Floor Beams W14X30 Cantilever W18X86

Girders W16X31 Special Beams W14X68




Floor Beams W14X30 Special Beams W14X68

Girders W16X31

`Coral-Team 2001Spring Presentation Connection Details

Shear Wall t=12”

8 # 9 bars @ 6” O.C. #4 ties

Boundary Element Boundary ElementCenter 12”

6 # 8 bars @ 4” O.C. #4 ties @ 12” O.C

8 # 9 bars @ 6” O.C. #4 ties

Floor Slab

Shear Wall

Collector Element

# 6 hooks @18” O.C. Side View

Top View


Moment Resisting Connection (Dogbone)

Side View

Top View


Shear Connection

Side View


Top View Column Connection

Side View


Façade Connection

Column

Liner Tray

Z Spacer

Sealing Taper

Thermal Insulation

Thermal Insulation

SWISS PANEL corrugated sheet

Fastener with colored head

`Coral-Team 2001Spring Presentation Load Paths

100 %100 %

25 %

25 %

EARTHQUAKE LOAD PATH GRAVITY

LOAD PATH

Collector Shear Transfer


Mode 1 Mode 2

Roof Deflection = 2.0 in Steel Design --> No yielding

P-Delta Effect Response Spectrum

SAP2000

Response Spectrum

0

0.2

0.4

0.6

0.8

1

1.2

0 1 2 3 4 5


Specifications1. Interior partition wall: dry wall with glass

Dry Wall

Glass Wall

Aesthetically pleasing, architectural finish

SOUND: Vibration-isolating furring element

Caulk joint at all edges


ExcavationOpen excavation

Standard wellpoint system: dewater the area prior to excavation.

The Caterpillar 301.5 Hydraulic Excavator


Specifications2. Facade

Why illuminium

The conductance(C) of the Isulating-board backed aluminum is 0.55

Comparing:

Plastering Materials (Sand aggregate)11.10

Architectural glass 10

Wood, with insulating backer board, 0.71

Concrete blocks, (sand and gravel) 1.4

Lightweight aggregate 4in 0.67


Specifications2. Facade

Why Sun Blocker

•Save energy on cooling loads

•Most of the heat is gained through the external façade.

Comparing:

Reduce the windows

Vision glazing

Reflective coating

Tint to the glass


Specifications

2. Facade

•Inflexible solar shading from aluminum lamella with different incline angles.

•Laminated coatings: vinyl films are used to provide nonmetallic color and long-lasting finish, and won’t aggregate heat in surrounding area.

(View from inside)


Specifications3. Interior lighting

The lighting system

• Passive solar design (daylighting)

• Sensor systems that balance artificial light levels with the ambient light available

• High-efficiency fluorescent lamps and electronic ballasts

• Load monitoring and controls systems

• Automatic shut-off devices

Lighting 40%

OtherElectricityUsage 60%

Lighting 10%

OtherElectricityUsage 90%

SAVE


Mechanical HVAC Systems

•Ventilation

•Air conditioning system

Objective:

•Take advantage of mild coastal air.

•Operable windows

•Thermosiphon design

•Underfloor supply plenum

• No ozone-depleting chlorofluorocarbon (CFC) refrigerants.

•Ease of access for maintenance, redundancy / back-up


Mechanical HVAC Systems•Underfloor Plenum

Plenum --------a large air supply or air return space.

A plenum system is based on air pressure (supply) or vacuum (return).

Plenum


MEP DesignMEP room

Shaft next to elevator

Distribution System

Ducts along grids, 2ft allowance

Air Handler/Cooling Tower on Roof


Cost Estimate

Sup Structure18%

Roof3%

Exterior Wall16%

Interior Construction

18%

Conveying3%

Mechanical28%

Electrical10%

Foundation3%

Sub Structure1%

Total Construction Cost $4,080,000

Structure System Cost: $350,000


Schedule-Milestones

M1: Foundation, Nov 16

M2: Steel Erection Completed, Feb 2

M4: Lab Occupied, May 9

M4: Project Complete, May 23

Begin at Sept. 28

8 months total


4D Simulation

`Coral-Team 2001Spring Presentation Iteration

A

E C

A

E

Lateral System

A

C

E

C

Cladding

Foundation


Looking Ahead and BehindBehind

We all did a good job of informing each other when work would be done and then sticking to it

MSN Messenger is a great tool

Switzerland is 9 hours ahead of PST

AheadMore communication with work done

More interaction with Mentors/Owners

A tighter work schedule

3D/4D models

Lessons Learned

Communicate and Plan EARLY


Professors

Mentors

Guest Lecturers

Fellow PBLers

` Coral-Team 2001 Spring Presentation Coral University of Hawaii School of Engineering ArchitectureGuido Zimmermann Marcel Schuler University of applied.

Documents