G. H. Schettler House Case Study © Robert. A. Young All rights reserved.

Slides:



Advertisements
Similar presentations
1 Green Building Features of the State Tax Credit Program The California Tax Credit Allocation Committee (TCAC) William Pavão, Executive Director.
Advertisements

Ecological Sustainable Development Tour A Education Facilities Research Group.
Green Building for Comfort Dan Mackey, CR, CKBR, CGBP Daniel Mackey Construction Incorporated National Association of the Remodeling Industry.
Energy Audit Kaylin Fitzgerald Environmental Science Mr. Fitzgerald.
Sustainable Residential Design Project Project 9 DS413: Design Studio 413 May 9, 2012.
Energy Conservation. 1. Air Sealing Holes/Cracks 2. Improved Insulation 3. Increased Efficiency of Heating/Cooling & Domestic Hot Water (DHW) 4. Lighting.
Healthy Building, Healthy Community Crystal Lake, Illinois.
Building Energy Rating
New York Life Building 20 West Ninth Street Mike Thome Hoss & Brown.
Greening Existing Homes 5. What You Need to Know? Clients: Buyers need guidance on upgrade possibilities and valuing of green features. Sellers need green.
Civil Engineering & Architecture 2.3 Residential Design.
Case Study Exercise. The Manor Size – 2 Stories, Garden Style, 84 Units – 75,602 square feet Age: 1984 – Built in phases Structure – Concrete block walls.
Presented by: Jane Briggs and Karen Mitchell October 11, 2007 The New LEED Building at Shady Grove.
Hope VI Residents Deserve Green Housing Affordable, Healthy Home Design Choices.
Sustainability and the Breuer Building Sustainability and the Breuer Building The Cleveland Green Building Coalition
Engert, Scheriau, Wimmer SS 2010 Energy and sustainable development, Prof. Schleicher.
Green Building Materials
Sustainable Design Energy Sciences Building. 2 Sustainability Regulations DOE final rule [10 CFR part 433] (30% better than ASHRAE) DOE Order 430.2b:
SUSTAINABILITY ANALYSIS OF RESIDENTIAL BUILDINGS Ashok Kumar Abhilash Vijayan Department of Civil Engineering.
GREEN BUILDINGS: An Approach towards Pollution Prevention Abhilash Vijayan Charanya Varadarajan Department of Civil Engineering University of Toledo Air.
BECOMING GREEN Santa Margarita High School Academic Building.
Fundamentals of Construction GTT – Unit 7 – Green Architecture
Greening Your Home Presented By: Josh Simmons Environmental Manager Santa Ynez Band of Chumash Indians [Insert DATE]
Kendal at Longwood Cottages Expansion Project Sustainable Development & LEED Certification.
LIHI has been providing homes and services for Puget Sound’s neediest citizens since In 2002, LIHI made the commitment to develop all new properties.
Dave Brake, Darren Adams, Sean Tobin Charmaine Dean, Jessie MacDonald.
Precedent Analysis arc 572 UT Solar Decathlon 2009 BLOOMhouse University of Texas at Austin I 2007 ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETY architecture.
Green Building Residential Construction
Parkdale United Church Foundation GREEN PHOENIX. Parkdale United Church Foundation Design charrette January 2005 Integrated design process: spring and.
Sustainable Construction Technological Design Sustainable Construction © 2011 International Technology and Engineering Educators Association, STEM  Center.
Energy efficiency in buildings Monga Mehlwana Tuesday, 05 October 2010.
Building Plans.
Green Star – Campus Group Work. Rating tool framework Management Indoor Environment Quality Energy Transport Water Materials Land Use and Ecology Emissions.
Industrial Design, Sustainable Design & LEED
Mission Statement Axonometric View Site plan Floor Plan Roof Plan Plumbing plan South Elevation North Elevation East Elevation West Elevation Section.
ENVELOPE. LIGHTING.
Energy Conservation February 8, Steve Wilson, MBA, CEM, CDSM, BEP The Energy Guy.
A Sustainable Residential Design Project Project 13 DS413: Design Studio 413 May 9, 2012.
ROOFING MATERIALS, INSULATION, AND HOUSING SYSTEMS.
THE VALUE OF DESIGN IN AFFORDABLE HOUSING Georgia Bizios, FAIA Professor of Architecture
Energy Conservation Project UNIT 7 STANDARDS: NCES 2.2.2,
BE PATTERNS, BE EXAMPLES Kendal, as a leading not for profit provider of senior housing and services, has an opportunity and societal obligation to demonstrate.
Future City Research Ideas by Emily Levinson. Housing The homes include low-emissivity windows, attic insulation with heat resistance, exterior foam building.
Energy efficiency : Solar Panels heat 60% of our hot water.
Kendal at Oberlin Energy Conservation & Sustainability Initiatives.
The Better Built House Benefits to Owning An R-2000 Home.
1 1 Weatherization & Indoor Air Quality Impacts of Weatherization on Air Quality and Comfort Inside Your Home Prepared with the assistance of Jed Harrison,
A SUSTAINABLE RESIDENTIAL DESIGN PROJECT PROJECT 10/DS 413/MAY 9, 2012.
Hillsborough Building & Planning. Green Building 101  Efficiency of buildings and responsible use of water, and construction materials  Reducing building.
Need NARI Info? Go to or call Updated 5/21/2013 The Principles of Green Remodeling.
Getting to Open Space. RELOCATION OF STRUCTURE The primary purpose of this option is to relocate structurally sound homes out of flood hazard areas. This.
SMART ENERGY EFFICIENCY FOR SMART PEOPLE PHOTO CREDIT: S. STEWART DOE Solar Decathlon nd Place University of Illinois at Urbana- Champaign.
Announcement: The Course Test is Net week ! On Wednesday, October 12 It starts at 1 pm sharp.
Green Building: What does the Fourth Little Pig Need to Know Before Choosing a Green Home.
Components of Construction part 2
Fundamentals of Construction
Sustainability Assessment of Family House - Case Study
The Principles of Green Remodeling
Margareta Zidar, B.Sc.Arch.Eng. Željka Hrs Borković, B.Sc.Arch.Eng.
Building Environmental Systems
Appalachian State University
Technological Design Sustainable Construction
Objective 6.02 part 2: Recognize components of construction
Green Building and Sustainable Architecture
G. H. Schettler House Case Study
Fundamentals of Construction GTT – Unit 7 – Green Architecture
Energy Innovations in Residential Buildings
Fundamentals of Construction Gateway – Unit 7 – Green Architecture
Green Building and Sustainable Architecture
© OnCourse Learning.
Presentation transcript:

G. H. Schettler House Case Study © Robert. A. Young All rights reserved

G. H. Schettler House Case Study Historic Preservation –Building Conservation –Neighborhood Revitalization –Rehabilitation Tax Credits Environmental Controls –Passive Solar –Daylighting –Thermal Mass Sustainability –Energy Conservation –Resource Conservation –Urban Revitalization –Reduce/Reuse/Recycle –Enhance Livability

G. H. Schettler House Case Study First Floor–Before May, 2000

G. H. Schettler House Case Study Second Floor–Before May, 2000

G. H. Schettler House Case Study Timeline 1904 Constructed 1936 Converted to five apartment units 1961 Resumed use as single family home 1994 Purchased by current owner 2000 Rehabilitated back to single family home 2001 Historic Landmarks Commission Award Utah Heritage Foundation Award

G. H. Schettler House Case Study Goals Model a Process Reduce Natural Resource Consumption/Increase Comfort Reduce Waste/Increase Recycled Content Reduce Hazardous Contamination Be Financially Competitive

G. H. Schettler House Case Study Process Model Physical Assessment Performance Programming Schematic Design Design Review Construction Documents Construction Occupation/Commissioning

G. H. Schettler House Case Study Building Envelope Physical Assessment

G. H. Schettler House Case Study Infrastructure Physical Assessment

G. H. Schettler House Case Study Character Defining Features Physical Assessment

G. H. Schettler House Case Study Character Defining Features Physical Assessment

G. H. Schettler House Case Study Building Chronology 1936 SLC Tax Photo Physical Assessment

G. H. Schettler House Case Study Recreated Original 1904 Floor Plans Physical Assessment

G. H. Schettler House Case Study Construction Documents

G. H. Schettler House Case Study Construction

G. H. Schettler House Case Study Construction

G. H. Schettler House Case Study Construction

G. H. Schettler House Case Study Construction

G. H. Schettler House Case Study Reduce Natural Resource Consumption/ Increase Comfort Architectural Mechanical Thermal Control Plumbing Electrical/Lighting

G. H. Schettler House Case Study Reduce Natural Resource Consumption/ Increase Comfort Before Rehabilitation Heating Load: 135,075 Btuh Cooling Load: 48,077 Btuh After Rehabilitation Heating Load: 85,564 Btuh (36.7% lower) Cooling Load: 37,275 Btuh (22.5% lower)

G. H. Schettler House Case Study Architectural Brick construction Large/Tall windows

G. H. Schettler House Case Study Architectural Ceiling height Transoms Double-hung windows

G. H. Schettler House Case Study Architectural Operable skylight in stairwell

G. H. Schettler House Case Study Architectural Window upgrades

G. H. Schettler House Case Study Architectural Insulation upgrades

G. H. Schettler House Case Study Architectural Light colored roofing

G. H. Schettler House Case Study Architectural Light wall color

G. H. Schettler House Case Study Mechanical Thermal Control Central forced air furnace Split system air-conditioning Combustion air inlet

G. H. Schettler House Case Study Mechanical Thermal Control Two thermal zones Programmable thermostats

G. H. Schettler House Case Study Mechanical Thermal Control Gas-fired fireplace inserts

G. H. Schettler House Case Study Mechanical Thermal Control Paddle fan in kitchen

G. H. Schettler House Case Study Mechanical Thermal Control Attic ventilation fan Ridge vents

G. H. Schettler House Case Study Electrical/Lighting Daylighting

G. H. Schettler House Case Study Electrical/Lighting Tasklighting Upgraded appliances

G. H. Schettler House Case Study Electrical/Lighting Programmable timers Automated controls

G. H. Schettler House Case Study Plumbing Low flow water fixtures Low water use appliances DHW tank insulated

G. H. Schettler House Case Study Reduce Waste/ Increase Recycled Content Reduce demand for new materials Reuse existing materials Reduce landfill pressure

Stewardship of the Built Environment Reduce Waste/ Increase Recycled Content Case 1: Rehabilitate Original House New Materials Needed:24.5 tons Construction Waste:22.8 tons Total Material Stream:47.3 tons 85.9% recycled content from original construction. Case 2: Build New House in the Suburbs New Materials Needed:173.5 tons Construction Waste: 8.9 tons Total Material Stream:182.4 tons ~4X Case1 0% recycled content (no original construction to reuse). Case 3: Demolish House and Rebuild Comparable New House (but not a “Monster House”) New Materials Needed: tons Construction Waste: tons Total Material Stream: tons~7.4X Case 1 0% or only nominal recycled content from original construction.

G. H. Schettler House Case Study Reduce Waste/Increase Recycled Content Percentage of Demolition Waste Material Total Weight Plaster/Lath62.2 Asphalt Roofing 9.8 Wood (flooring, framing, etc.) 6.6 Concrete 6.5 Cedar Shingles 3.8 Gypsum Board 3.4 Ceiling Tile 2.6 Aluminum 2.0 Insulation 1.3 Carpet 1.2 Carpet Pad

G. H. Schettler House Case Study Reduce Hazardous Contamination Asbestos Lead Indoor air quality

G. H. Schettler House Case Study Be Financially Competitive (2001) Project Cost: $215,000$84.42/sf Tax Credits: $ 41,800 Net Cost:$173,200$67.97/sf Overall Cost:$ 302,700$119.13/sf Note: Average cost for new construction locally was >$150/sf.

G. H. Schettler House Case Study North Parlor Before After

G. H. Schettler House Case Study Dining Room BeforeAfter

G. H. Schettler House Case Study Kitchen BeforeAfter

G. H. Schettler House Case Study Porch Before After

G. H. Schettler House Case Study Exterior Before After