Georgia Tech 180 LEED (Leadership in ... - Atlanta, GA · sustainable campus design 8th street...
Transcript of Georgia Tech 180 LEED (Leadership in ... - Atlanta, GA · sustainable campus design 8th street...
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Clough Undergraduate Learning Commons (image below) 2011, Bohlin Cywinski Jackson/Facility Design Group/Turner Construction Co.
A guide to Georgia Tech’s sustainable buildings and infrastructure.
Engineered Biosystems Building (EBB)*2015, Lake Flato/Cooper Carry/McCarthy
Caddell Building*2015, Bldgs/Evergreen
Carbon Neutral Energy Solutions Lab. (CNES)2012, HDR/Gilbane
• 230,000 sq. ft. LEED Platinum Building • Intensive Green roof • 360 solar panels producing approximately 85 KW• 30 solar thermal panels to supplement the domestic hot water• Roof water and condensate are collected for re-use • 1.4 million gallon cistern for toilets, irrigation and water for the Campanile Fountain. • Light monitors provide daylighting into its center• “Daylight harvesting” system allows lighting to be turned off in public areas
(corridors) when there is sufficient sunlight
• First Platinum level LEED Certification at Tech
• This 42,000 sq. ft. building is an example of the methods and technologies that can be implemented in future construction
• 20,000 gal Cistern system for toilets and landscape irrigation
• Interactive Sustainablity Dashboard
• 218,000 sq. ft. bio-tech research• 43KW photovoltaic array• 247,000 gal multi-building cistern
system for toilets and irrigation • Energy recovery systems air/water
waste heat, chilled beams, and solar hot water heating system
• Reuse of existing lumber, “TreeCycling”
• 11,000 sq. ft. with offices, student work areas, and flexible learning spaces
• Passive shading strategy allows 100% day lighted views of occupied spaces while minimizing heat gain
• Re-used existing concrete/steel frame structure
• Existing structural systems exposed as a Building Construction educational tool
Platinum • 528,157 gsf
Gold • 1,892,671 gsf
Silver • 509,716 gsf
Certified • 38,750 gsf
Sustainable features **
Certification Pending
Stormwater Management
LEED (Leadership in Energy and Environmental Design)
Photovoltaic (PV)Total 623 KW
Green Roof
Wind Power
Cisterns for Irrigation
Infiltration Cells/Bio-Swale/Rain Garden
Cisterns for Re-use, Irrigation, Infiltration
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Over 2.26M Gal Storage
Total 2,969,294 gsf128.5 sf LEED Space/Student
(gsf includes pending certifications)
*Buildings currently seeking LEED certification and anticipated to achieve levels as listed.**Buildings with sustainable features were designed using sustainable practices however did not seek LEED certification.
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Georgia TechSustainable Campus Design
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Ken Byers Tennis Complex Joseph B. Whitehead Student Health Center2003, Lord Aeck Sargent/Whiting Turner Construction, Minor Interior Renovation by Stanley, Beaman, Sears - DPR Construction
Campus Recreation Center**
Mason Building**
Scheller College of Business2003, Thompson, Ventulett, Stainback & Associates/Holder/Hardin Jv Construction Company
Marcus Nanotechnology Building**2008, Bohlin Cywinski Jackson/Whiting-Turner
2012, Woolpert/New South
• Innovative use of controlled daylighting• Toilets and sinks were converted to low
flow fixtures resulting in a 27% reduction in potable water use
2004 Renovation, Hastings & Chivetta Architects / Beers Construction Company / Skanska
2013 Renovation, Cooper Carry/Perkins + Will / Balfour Beatty
• Removed asbestos containing materials • Replaced windows to increase efficiency• Upgraded mechanical systems to improve
energy efficiency• Installed new energy efficient lighting
• 16.5 % more energy-efficient than the national standard
• 13th LEED certified project in US and 2nd in GA since system was launched in 1998
• Included an 80,000 gal cistern that is being connected to the campus stormwater masterplan system
• Two 1,500 gallon cisterns. • 340 kW PV installation was the largest
installation of its type when it was constructed. A solar thermal system is used to heat the pool to 78° F.
• 33% water use reduction by use of low-flow fixtures
• Designed to the standards of the ‘Advanced Buildings Core Performance Guide’ for enhanced efficiency
• 90% of spaces have outdoor view (excluding courts)
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Klaus Advanced Computing Bld.2006, Perkins + Will / W.G. Yates And Sons
Hinman Building2011 Renovation, Lord Aeck Sargent/office dA/ Beck, Original design: Heffernan of Bush-Brown & Gailey
McCamish Pavilion
Stephen C. Hall Building2012 Renovation, Smith Dalia Architects, LLC/ Hogan Construction
Old Civil Engineering Building2008 Renovation, Surber Barber Choate & Hertlein / Juneau
Zelnak Basketball Practice Facility
Historic Academy of Medicine2012 Renovation, Dunwody Beeland/Chris Sheridan Const., Original design: Philip Shutze
Mewborn Field
North Avenue Apartments and Dining Hall 2008, Hanbury, Evans, Wright, Vlattas / Menefee & Winer / Juneau Construction
Chapin Building*2014 Renovation, Lord Aeck Sargent/Lusk Construction
Fitten, Freeman, Montag2009 Renovation, Collins, Cooper, Carusi/Winter Construction
Glenn and Towers*2014 Renovation, VMDO/Stevens & Wilkinson/New South Construction
• 120,000 gal capacity cisterns with rain gardens and infiltration resulting in 34% decrease in rate and quantity of runoff
• High-performance glazing, shading, daylighting, occupant-sensor controlled and daylight-responsive lighting
• Improved energy performance by more than 20% of baseline in ASHRAE 90.1, while protecting the character defining features of an historic building
• Maintained 75% of the existing structure
2012 Renovation, Populous/MAKE3/Whiting Turner Construction/SG Contracting
• 6,500 gal cistern as part of a 30% reduction of stormwater runoff from site pre-renovation levels
• 96% of the existing building walls, floors and roof elements were maintained in the renovation
2009, HEERY International/Gay Construction
• Through adaptive reuse the building was saved, architectural and interior artifacts were preserved, and the spaces were renovated to accommodate a wide variety of educational and social events
2009, Rosser International/Barton Malow
• Extensive green roof on dining hall• Food waste collected/composted by a local
composter, diverting 33.5 tons of food waste yearly from landfills
• Largest LEED EB O&M Gold university housing complex
• 10,000 gal cistern collecting stormwater for irrigation
• Replaced windows to increase building efficiency
• Upgraded mechanical systems • Installed energy efficient lighting
• Original Infirmary Building• Replaced windows, installed elevator• Recreated 1910 inspired grand staircase• Updated mechanical systems• Much of the historic wood flooring was
rehabilitated in place
• 8,000 gal cistern for irrigation/toilets• Converted buildings to dual flush
toilets and low flow fixtures• High efficiency semi-instantaneous
boilers distribute domestic hot water and hydronic heating to 3 buildings
• 8,000gal cistern connected to Brittain and Stadium system providing irrigation
• Replaced windows to increase building efficiency
• Installed energy efficient lighting
• 5,000 gallon cistern collecting stormwater from the roof for irrigation
• Re-circulating air system allows the 11,000 SF of space to be heated and air-conditioned using low velocity air conditioner/heater
• The first LEED Gold certified women’s softball facility in the country
• 42,000 gallon cistern under its playing field is large enough to irrigate 1.5 inches per week for 3 weeks, eliminating the need for potable irrigation
• Over 60% of existing structural walls floors and roof were reused
• Maintained historic dome structureGo
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Landscape Masterplan Goals:
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• A significant component of Georgia Tech’s Landscape Master Plan is the creation of the Eco-Commons to achieve 50% reduction in stormwater runoff.
• The Eco-Commons is an engineered waterway designed to replicate stormwater management of the original stream. The Campus Landscape Diagram
The Ecological Landscape
The Human Landscape
• Develop integrated, ecologically-based landscape and open space systems
• Enhance living, working and learning environment
• Unify the campus with a distinct sense of place
• Increase tree canopy-replace aging trees• Create an Eco-Commons (80 acres)• Implement ecological performance
requirements of 50% reduction of storm water runoff
Eco-Commons Infiltration & Rain Garden
Eco-Commons Overlay Diagram