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Genetics and Cancer Research Complex LEED Case Study Presentation. ™. Introductions. Bahar Armaghani, LEED Professional Frank Javaheri, Project Manager Dr. Robert Ferl, Director - ICBR Paul Macheske, HuntonBrady Architects Bryan Burless / Jeff Lajza, Turner / PPI JV - PowerPoint PPT Presentation
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Genetics and Cancer Research Complex
LEED Case Study Presentation
™
• Bahar Armaghani, LEED Professional• Frank Javaheri, Project Manager• Dr. Robert Ferl, Director - ICBR• Paul Macheske, HuntonBrady
Architects• Bryan Burless / Jeff Lajza, Turner / PPI
JV• Bill McGuire, Xnth
Introductions
University of Florida’s LEED Program
In 2001, University of Florida officially adopted (LEED) for its
major renovation and new construction projects
Starting 2006, Minimum Silver LEED certification required
University of Florida’s LEED Program
LEED standards is first and foremost tool that enables a design team all the way through the design and construction process
Over the last 5 years UF has used this tool to the benefit of projects all over University resulting in an entirely new breed of buildings
at UF, the LEED certified green buildings
This new generation of University of Florida building represents a giant step forward for the university
Why UF Adopted LEED
As an educator plays a leading role in training leaders to make difference in the world
UF consumes significant resourcesStudents will have major environmental Impact as consumers, conservers when depart campus
•Be proactive in taking positive steps toward saving the environment
•Save Energy
•Occupants well being
•Lead
•Educate
It is the “right” thing to do!
Why UF Adopted LEED
Facts About University of Florida
Utilities Consumption
Electric: about $3.5 million per month
Water: about $85,000 per month
Steam: about $350,000 per month
• ~ 50,000 students• 8,100 staff• 4,350 faculty• We are a city within a city
Facts About University of Florida
Facts About University of Florida
•18,000 tons per year total waste generated
•Each Home Game day generates additional: -9 tons at the stadium-7 tons tailgating
•Homecoming weekend generates additional: -29 tons
Facts About University of Florida
Facts About University of Florida
Utilities Consumption Electric: about $3.5 million per month
Water: about $85,000 per monthSteam: about $350,000 per month
Facts About University of Florida
Facts About University of Florida
Construction
•$400 million in design, planning and construction, new construction and major renovation
•Minor projects for building upgrades
Facts About University of Florida
Facts About University of Florida
UNIVERSITY OF FLORIDA LEED UNIVERSITY OF FLORIDA LEED PROJECTSPROJECTS
UF Facilities Planning &
Construction
Legal Information & Phase II Law
Building
A
SW Stadium Expansion
C
Graham Center at Pugh Hall
D
Library West Additions & Renovations
E
Hub Renovation
F
Steinbrenner Band Building
G
M.E. Rinker Sr. Hall
H
Nanoscience Institute
I
Biomedical Science Building
J
Veterinary Medicine Food Animal Facility
K
Genetics & Cancer Research
Center
L
McGuire Center For Lepidoptera & Biodiversity
M
Mary Ann Cofrin-Harn Pavilion
UF Orthopaedic Surgery & Sports
Medicine Institute
N
O
Baseball Locker Room Facility
B
Q
Pathogens Research Facility
IFAS Biological & Agricultural
Research Facility
Powell Structures and
Materials Laboratory
RP
Not on MapOutside Main Campus
Boundary
EAST CAMPUS
Certified
Certified
Certified
Gold
Energy & Atmosphere
Green Power - Avoided emissions of 2,595,054 pounds of CO2
Taking 226 cars off the road
Planting 353 acres of fully mature trees
One Example - Working to renovate existing buildings to incorporate sustainable/green features
“UF Portfolio Pilot Program for LEED Certification of Existing Buildings”
Working with USGBC to develop approach to apply LEED EB to 31 existing buildings
Where Do We Go From Here?
• With 280,000+ GSF, CGRC is the largest research labs building at UF campus. This building includes:
• Seven-16 person and 48-8 person research labs• State-of-the-art teaching lab at ICBR• Vivarium with 18 AHRs and supporting Procedure Rooms
which could hold up to 18,000 mice.• Two BSL-3 labs and one GMP lab• Forensics lab, autopsy, x-ray and cold room.• Ten Temperature controlled plant growth rooms• Three automated greenhouses on the roof• 150 seat auditorium with 50 person overflow seminar room• Three seminar and ten conference rooms• Administrative suites for faculty and staff• Large atrium• Fully wireless system• Three passenger and one freight elevators• 34 new parking spaces• Approximate occupancy 600+
Cancer/Genetics Research Complex
Project Facts
• 19,100 CY of concrete was installed for the building structure. Total weight of poured concrete was in excess of 77,000,000 lbs.
• If this amount of concrete was poured into a continuous 4’ wide sidewalk that is 4” thick, it would stretch for 75 miles. This represents a sidewalk from Gainesville to Daytona Beach, as the crow flies.
• The cast in place concrete contained over 3,800,000 lbs of reinforcing steel, which is 100% recycled material
• Approximately 700,000 feet of wiring was used throughout the building.
• Over 1.2 million man-hour was spent to build this building.
CGRC Fun Facts
Fun Facts
• 2006 Silver Award from the City of Gainesville Beautification Board
• 2006 Gates Publication• 2007 ABC Eagle award, Excellence in
Construction • 2007 Publication National Healthcare
Building Ideas
Publication / Awards
The Team3
The Genetics and Cancer Research ComplexLEED Certification
• Reviewing GCRC LEED - NC Rating Criteria & Score
• Addressing The Six Key Categories
• Identifying the Firms and Consultants
Green Facts1
Sustainable Design Features2
The Leadership in Energy and Environmental Design (LEED) Rating System was designed by the US Green Building Council to encourage and facilitate the development of more sustainable buildings.
The UF-136 Genetics/Cancer Research Complex project was evaluated according to this system and the Final Rating is described in the following presentation.
U.S. Green Building Council Overview
Green Facts1-0
• New Research Building for University of Florida
• Genetics Institute • UF Shands Cancer Center• Interdisciplinary Center for Biotechnology Research • Institute of Food and Agricultural Sciences• College of Liberal Arts sand Sciences / C.A. Pound Human
Identification Laboratory
• Components include• Research Laboratories• Animal Research Facilities• Rooftop Green House • Faculty & Administrative Offices• Forensic Anthropology Laboratory
• Facility Description• 280,000 GSF• Two Wings, Seven Floors (N) and Five Floors (S) • Start Design: June, 2002• Ground Breaking: April, 2004 • Building Opening: August, 2006• Construction Cost: $70+ million
Project Description
Green Facts 1-1
As a member institution of the U.S. Green Building Council, UF develops and administers the LEED Leadership in Energy and Environmental Design Green Building Rating System
University of Florida "LEED"s by Example
• Nationally accepted benchmark for the design, construction, and operation of high performance green buildings
• Provides building owners tools that have an immediate measurable impact on their buildings’ performance
• Promotes a whole-building approach to sustainability using six key categories of human and environmental health
Six Key Categories:1. Site Planning2. Water Management 3. Energy Management 4. Material Use 5. Indoor Air Quality 6. Innovation & Design
Process
Green Facts1-2
G&C RC Points Earned Total Points Available8 Sustainable Site 14
3 Water Efficiency 5
2 Energy & Atmosphere 17
2 Materials & Resources 13
8 Indoor Environmental Quality 15
2 Innovation & Design 5 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
26 Total Points 69
The LEED - NC Rating Criteria
Green Facts1-3
LEED-NC Rating: Total Possible Points 69
The Genetics and Cancer Research Center
Green Facts1-4
Rating: LEED CERTIFIED
1. Sustainable Site
2. Water Efficiency
3. Energy & Atmosphere
4. Materials & Resources
5. Indoor Environmental Quality
6. Innovation & Design
2-0 Sustainable Design Features
Six Key CategoriesPromoting a whole-building approach to sustainability using categories of human and environmental health
1. Sustainable Site
• Adjacent to Bus Stops• Shower/Bike Racks• Alternate Transportation Parking Capacity Alternate Fuel Refueling Stations• Reduced Site Disturbance, Development Footprint• Stormwater Management Rate & Quantity Treatment• Landscape & Exterior Design Reduce Heat islands Roof Surfaces
2-1 Sustainable Design Features
Six Key Categories
1. Sustainable Site Prerequisite 1 – Version 2.1 Erosion & Sedimentation Control
2-1.0 Sustainable Design Features - Site
Site Prerequisite
Approach Taken: Meet or exceed the EPA standard
Measures include: • Preservation of natural
vegetation, • Sod stabilization, • Dust control, • Silt fence, • Storm drain inlet &
outlet protection
Provided supporting drawings & specifications
1. Sustainable Site Credit 4.1 – Version 2.1Alternative Transportation, Public Transportation Access
2-1.1 Sustainable Design Features - Site
Site Credit
Documentation: Providedsigned LEED Letter Template
Confirmed that there are 2 bus lines within 1/4 mileof the project site.
Provided a scaled vicinity map
1. Sustainable Site Credit 4.2 – Version 2.1 Alternative Transportation, Bicycle Storage & Changing Rooms
2-1.2 Sustainable Design Features - Site
Documentation: Provided LEED Letter Template
Features: • 60 bicycle stalls • 4 showers
Bicycle Storage must be at least 5% of the 600 building occupants
Provided supporting drawings
Site Credit
1. Sustainable Site Credit 4.3 - Version 2.1 Alternative Transportation, Alternative Fuel Refueling Stations
2-1.3 Sustainable Design Features - Site
Documentation: ProvidedLEED Letter Template
Measures include: • Provides 2 alternative
fuel refueling stations• Equates to 5.88% of the
site vehicle parking
Provided supporting narrative, site plan, and photographs
Site Credit
1. Sustainable Site Credit 4.4 – Version 2.1 Alternative Transportation, Parking Capacity
2-1.4 Sustainable Design Features - Site
Documentation: ProvidedLEED Letter Template
Measures include: • Confirmed parking does not exceed
minimum zoning requirements,• 3 preferred carpool parking spaces
for 15 passenger vans provided. • Serves 45 of the 600
building occupants
Provided supporting narrative, site plan, photographs & master plan
Site Credit
1. Sustainable Site Credit 5.2 – Version 2.1 Reduced Site Disturbance, Development Footprint
2-1.5 Sustainable Design Features - Site
Documentation: • Provided LEED Letter Template• Stated that there are no local zoning
requirements for open space, • Area of open space has been allocated
on the campus equal to or greater thanthe size of the building footprint.
• Provided campus plan highlighting the dedicated open space and its sf.
• Included a letter from UF that the open space preserved for life of the building.
Site Credit
1. Sustainable Site Credit 6.1 – Version 2.1 Stormwater Management, Rate and Quantity
2-1.6 Sustainable Design Features - Site
Documentation: Provided LEED Letter Template
Measures include: • Verified the post-development
1.5 year, 24 hour peak dischargerate & quantity does not exceedpre-development conditions.
• Application to SJRWMD Permit• Construction is part of Lake Alice
master stormwater system regulatingdischarge quality and quantity
Provided supporting documents
Site Credit
1. Sustainable Site Credit 6.2 – Version 2.1 Stormwater Management, Treatment
2-1.7 Sustainable Design Features - Site
Documentation: Provided LEED Letter Template
Measures include: • Supporting narrative • Local standard for stormwater
treatment has been followed and ismore stringent than EPA standard
Provided supporting documents
Site Credit
1. Sustainable Site Credit 7.2 – Version 2.1 Landscape & Exterior Design to Reduce Heat Islands, Roof Surfaces
2-1.8 Sustainable Design Features - Site
Documentation: Provided LEED Letter Template
Measures include: • Roofing materials for 100% of the
project's roof surface meet the emissivity & reflectivity requirementsof the credit
Provided supporting specifications& calculations
Site Credit
1. Sustainable Site
2. Water Efficiency
• Water Efficient Landscaping Reduce by 50% No Potable Use • Plumbing Water Use Reduction by 20%
2-2 Sustainable Design Features
Six Key Categories
2. Water Efficiency Credit 1.1 – Version 2.1 Water Efficient Landscaping, Reduce by 50%
2-2.1 Sustainable Design Features – Water Efficiency
Documentation: Provided LEED Letter Templateand Narrative
Measures include: • Native and adaptive vegetation
have been planted,• All irrigation will be supplied by
reclaimed water,• Landscaping installed does not
require permanent irrigation system
Provided supporting narrative, site plan, irrigation plan
Water Efficiency Credit
2. Water Efficiency Credit 1.2 – Version 2.1 Water Efficient Landscaping, No Potable Use or No Irrigation
2-2.2 Sustainable Design Features – Water Efficiency
Documentation: Provided LEED Letter Templateand Narrative
Measures include: • Native and adaptive vegetation
have been planted,• All irrigation will be supplied by
reclaimed water,• Landscaping installed does not
require permanent irrigation system
Provided supporting narrative, site plan, irrigation plan
Water Efficiency Credit
2. Water Efficiency Credit 3.1 – Version 2.1 Water Use Reduction, 20% Reduction
2-2.3 Sustainable Design Features – Water Efficiency
Documentation: Provided LEED Letter Template and supporting calculations
Measures include: • Calculated water use has been
reduced by 20.02% • Use of ultra low-flow lavatory,
low-flow kitchen sink and low-flow showers
• Compared to standard fixture use
Provided supporting calculations
Water Efficiency Credit
1. Sustainable Site
2. Water Efficiency3. Energy & Atmosphere• Additional Commissioning• Ozone Protection
2-3 Sustainable Design Features
Six Key Categories
3. Energy & Atmosphere Prerequisite 1 – Version 2.1 Fundamental Building Systems Commissioning
2-3.0 Sustainable Design Features – E&A
Documentation: LEED Letter Template
Requirements: • Engage a Cx team• Review design intent
and basis of design• Incorporate Cx req’ts
into const. documents• Develop & utilize Cx plan• Verify Installation,
functional performance, training, O&Ms
• Commissioning Report
Energy & Atmosphere Prerequisites
What is Commissioning?
ASHRAE Definition:
A quality-focused process for enhancing the delivery of a project. The process focuses on verifying and documenting that the facility and all of its systems and assemblies are planned, designed, installed, tested, operated and maintained to meet the Owner’s Project Requirements.
3. Energy & Atmosphere Prerequisite 1 – Version 2.1 Fundamental Building Systems Commissioning
2-3.0 Sustainable Design Features – E&A
Energy & Atmosphere Prerequisites
LEED Requires the following energy related systems be commissioned
• HVAC systems and associated controls
• Lighting and day-lighting controls
• Domestic hot water systems
• Renewable energy systems (wind, solar, etc)
• UF Chose to include the building envelope
Why Commissioning?
•Building systems are more complex:
• New technology• Increased energy efficiency• Reduced environmental impact• IAQ
• Construction Challenges• Compressed schedules• Training• Labor challenges• Budgets
3. Energy & Atmosphere Prerequisite 2 – Version 2.1 Minimum Energy Performance
2-3.0 Sustainable Design Features – E&A
Documentation: Provided LEED Letter Template
Measures include: • Compliance with ASHRAE 90.1-1999• Envelope Compliance (COMcheck)
Provided supporting documentation
Energy & Atmosphere Prerequisites
3. Energy & Atmosphere Prerequisite 3 – Version 2.1 CFC Reduction in HVAC&R Equipment
2-3.0 Sustainable Design Features – E&A
Documentation: Provided LEED Letter Templateand Narrative
Measures include: • The project's HVAC&R systems
do not contain CFC-based refrigerants.
Provided supporting documentation
Energy & Atmosphere Prerequisites
3. Energy & Atmosphere Credit 3 – Version 2.1 Additional Commissioning
2-3.1 Sustainable Design Features – E&A
Documentation: LEED Letter Template
Requirements: • Cx Authority must be
independent of design team• Review design prior to CD phase• Review const. documents
prior to being issued• Review contractor submittals• Provide Owner with a
systems manual• Conduct an in-warranty review
Energy & Atmosphere Credit
Prerequisite vs Additional: NC 2.1
3. Energy & Atmosphere Credit 4 – Version 2.1 Ozone Protection
2-3.2 Sustainable Design Features – E&A
Documentation: LEED Letter Template
Requirements: • Project's HVAC&R systems do
not contain HCFCs or Halons. • The project provided calculations
in compliance with CIR Ruling1/11/05
Energy & Atmosphere Credit
1. Sustainable Site2. Water Efficiency3. Energy & Atmosphere4. Materials & Resources • Recycled Content - 5%• Recycled Content - 10%• Local/Regional Materials – 20%
2-4 Sustainable Design Features
Six Key Categories
4. Materials & Resources Prerequisite 1 – Version 2.1 Storage & Collection of Recyclables
2-4.0 Sustainable Design Features – M&R
Documentation: Provided LEED Letter Template
Measures include: • Appropriate facilities for recycling provided. • Floor plan locating the recycling collection
and storage areas indicate achievement:• Break Rooms 0554, 0268, 0368, 0468,
0216, 0316, 0416, • Café 0351B,• Loading Dock
Provided supporting documentation
Materials & Resources Prerequisites
4. Materials & Resources Credit 4.1 – Version 2.1 Recycled Content, Specify 5%
2-4.1 Sustainable Design Features – M&R
Documentation: Provided LEED Letter Template
Measures include: • Supporting calculations indicate that the
project has achieved a combined recycled content value of 15.34% of the total materials by cost.
Provided supporting documentation
Materials & Resources Credit
4. Materials & Resources Credit 4.2 – Version 2.1 Recycled Content, Specify 10%
2-4.2 Sustainable Design Features – M&R
Documentation: Provided LEED Letter Template
Measures include: • Supporting calculations indicate that the
project has achieved a combined recycled content value of 15.34% of the total materials by cost.
Provided supporting documentation
Materials & Resources Credit
4. Materials & Resources Credit 5.1 – Version 2.1 Local/Regional Materials, 20% Manufactured Regionally
2-4.3 Sustainable Design Features – M&R
Documentation: Provided LEED Letter Template
Measures include: • Supporting calculations indicate that
67.93% of the total project's materials by cost were manufactured within 500 miles of the project site.
• Total materials cost $12,983,053
Provided supporting documentation
Materials & Resources Credit
1. Sustainable Site
2. Water Efficiency3. Energy & Atmosphere4. Materials & Resources 5. Indoor Environmental Quality • CO2 Monitoring• Construction IAQ Management Plan• Low-Emitting Materials Paints Adhesives Sealants Carpet• Indoor Chemical & Pollutant Source Control• Thermal Comfort Compliance with ASHRAE 55-1992 Permanent Monitoring System
2-5 Sustainable Design Features
Six Key Categories
5. Indoor Environmental Quality Prerequisite 1 – Version 2.1 Minimum IAQ Performance
2-5.0 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • Verified compliance with requirements
of ASHRAE 62-1999,• Provided documentation describing the
Ventilation Rate Procedure.
Provided supporting documentation
Indoor Environmental Quality Prerequisites
5. Indoor Environmental Quality Prerequisite 2 – Version 2.1 Environmental Tobacco Smoke (ETS) Control
2-5.0 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • No smoking is allowed in the building • Outdoor smoking areas are located away
from operable windows and entryways. • A copy of the campus policy was included
Provided supporting documentation
Indoor Environmental Quality Prerequisites
5. Indoor Environmental Quality Credit 1 – Version 2.1 Carbon Dioxide (CO2) Monitoring
2-5.1 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • CO2 monitoring system was installed• Supporting specifications were provided
Provided supporting documentation
Indoor Environmental Quality Credit
5. Indoor Environmental Quality Credit 3.1 – Version 2.1 Construction IAQ Management Plan, During Construction
2-5.2 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • Construction IAQ plan was followed
and implemented.• Provided 18 photographs and an associated
description of compliance.
Provided supporting documentation
Indoor Environmental Quality Credit
5. Indoor Environmental Quality Credit 4.1 – Version 2.1 Low-Emitting Materials, Adhesives & Sealants
2-5.3 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • Use of compliant adhesives and sealants• A list of all adhesives and sealants that
were incorporated with associated VOC levels was provided
Provided supporting documentation
Indoor Environmental Quality Credit
5. Indoor Environmental Quality Credit 4.2 – Version 2.1 Low-Emitting Materials, Paints
2-5.4 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • All paints, including topcoats and primers
meet the VOC requirements of Green Seal • A list of all paint products incorporated with
associated VOC levels was provided
Provided supporting documentation
Indoor Environmental Quality Credit
5. Indoor Environmental Quality Credit 4.3 – Version 2.1 Low-Emitting Materials, Carpet
2-5.5 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • Use of carpeting that complies with the
CRI Green Label Program• A list of all carpet products incorporated
was provided
Provided supporting documentation
Indoor Environmental Quality Credit
5. Indoor Environmental Quality Credit 5 – Version 2.1 Indoor Chemical and Pollutant Source Control
2-5.6 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • Indoor chemical and pollutant source
control measures were completed • A supporting narrative was provided
Provided supporting documentation
Indoor Environmental Quality Credit
5. Indoor Environmental Quality Credit 7.1 – Version 2.1 Thermal Comfort, Compliance with ASHRAE 55-1992
2-5.7 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • Designed to maintain indoor comfort
within the ranges established by ASHRAE 55-1992, Addenda 1995
• Information on temperature and humidity control ranges was provided.
Provided supporting documentation
Indoor Environmental Quality Credit
5. Indoor Environmental Quality Credit 7.2 – Version 2.1 Thermal Comfort, Permanent Monitoring System
2-5.8 Sustainable Design Features – IEQ
Documentation: Provided LEED Letter Template
Measures include: • Installed a permanent temperature and
humidity monitoring system that operatesduring all seasons
• The system permits control of individual building zones to maintain thermal comfort in ranges of ASHRAE 55-1992, Add. 1995
• Systems were commissioned as part of the scope for EAp1, Fundamental Building Systems Commissioning
Provided supporting documentation
Indoor Environmental Quality Credit
1. Sustainable Site
2. Water Efficiency3. Energy & Atmosphere4. Materials & Resources 5. Indoor Environmental Quality 6. Innovation & Design Process• Use of Thin Brick & Pre-Cast
Reduction In Raw Material Required Reduction In Energy & Fuel Consumed• LEED Accredited Professional on Team
2-6 Sustainable Design Features
Six Key Categories
6. Innovation & Design Process Credit 1.1 – Version 2.1 Innovation in Design (Compliance)
2-6.1 Sustainable Design Features – I&DP
Documentation: Provided LEED Letter Template
Measures include: • Reduction of embodied energy that resulted
by use of thin brick inlaid architectural precast concrete exterior wall system
• Integrated design, less material, less waste, less site disturbance, energy efficient, less cost to ship/transport, less noise, IEQ
• Documented and quantified the environmental benefits of thin brick
Design team worked closely with GATE PrecastCompany to detail, design & document
Innovation & Design Process Credit
6. Innovation & Design Process Credit 1.1 – Version 2.1 Innovation in Design (Documentation)
2-6.1 Sustainable Design Features – I&DP
Innovation & Design Process Credit
Thin Brick (actual) Full Bed Depth Brick (estimated)Raw material mined (clay) 288 tons 1,440 tonsShipping raw materials to brick plant 13 loads, 39 gallons fuel $109 64 loads, 192 gallons fuel $537Firing costs 710 mmbtu $8,520 3,500 mmbtu $42,000Shipping bricks to precast plant 12 loads one way = 1,470 gallons fuel $4,116 100 loads one way = 12,250 gallons fuel $34,300
SavingsRaw Materials 1,152 tonsDiesel Fuel 12,648 gallonsNatural Gas 2,790 mmbtuCosts $68,894
The material saved alone would produce an additional 400,000 sf = 2.7 million pieces of thin brick.
Comparison calculation for the use of thin brick vs. full bed depth brick
1) 100,000 sf of thin brick equates to 675,000 pieces of full bed depth brick
2) Modular size bricks 3-5/8” x 2-1/4” x 7-5/8”; Thin brick, 5/8” x 2-1/4” x 7-5/8”
3) Shipping distance for raw materials: 12 miles and trucks return to mine empty (24-mile round trip)
4) Shipping distance for finished product: 980 miles
5) Modular-size brick creates job site and construction waste vs thin brick which produces Zero construction waste.
6) Fuel mileage for all trucking: 8.0 miles per gallon.7) Diesel fuel cost: $2.80 per gallon8) 10% loss on ignition (organic materials burned during kiln
firing)9) All trucking capacities: 45,000 lbs.10) Natural gas cost delivered to plant : $12/ mmbtu
6. Innovation & Design Process Credit 1.1 – Version 2.1 Innovation in Design (Fabrication)
2-6.1 Sustainable Design Features – I&DP
Innovation & Design Process Credit
6. Innovation & Design Process Credit 1.1 – Version 2.1 Innovation in Design (Erection)
2-6.1 Sustainable Design Features – I&DP
Innovation & Design Process Credit
6. Innovation & Design Process Credit 1.1 – Version 2.1 Innovation in Design (Final System)
2-6.1 Sustainable Design Features – I&DP
Innovation & Design Process Credit
6. Innovation & Design Process Credit 2 – Version 2.1 LEED™ Accredited Professional
2-6.2 Sustainable Design Features – I&DP
Documentation: Provided LEED Letter Template
Measures include: • A LEED Accredited Professional
participated on the project development
LEED Accredited Professionals included, but were not limited to:• Wendy Landry,• Mike Hess,• Bahar Armaghani (UF)
Innovation & Design Process Credit
Identification of Team Members
• Owner: University of Florida• Architect: Hunton Brady Architects,
P.A. in association with Ellenzweig Associates
• MEP Engineer: BR+A (Boston)• Structural Engineer: Walter P. Moore• Civil Engineer: Harris Civil Engineers• Landscape Architect: Nancy Prine• LEED Consultant: Greentime LLC• Construction Manager: Turner-PPI (JV)• Commissioning Agent: X-Nth (GRG)• Precast Contractor: GATE Precast
The Team3
It Takes a Team To Be Green
npla
Genetics and Cancer Research Center &
ICBR Pavilion
LEED Case Study Presentation
™
Questions&
Answers