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Design for Green Building

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Design for Green Building Corinne Marzullo April 23, 2001 Why Build Green U.S. consumes 20,000 pounds per year of active materials Active materials include: Virgin ... – PowerPoint PPT presentation

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Title: Design for Green Building


1
Design for Green Building
  • Corinne Marzullo
  • April 23, 2001

2
  • Why build green
  • Benefits
  • Materials
  • Case studies
  • Conclusions

3
Why Build Green
  • U.S. consumes 20,000 pounds per year of active
    materials
  • Active materials include
  • Virgin forest products
  • Fuels
  • Steel
  • Glass
  • Cement
  • Plastics

4
Why Build Green
  • 90 become waste in less than one year
  • Non-hazardous industrial waste could be reduced
    from 11 billion tons to 4.5 billion tons by
    design decisions and improved recycling

5
Benefits of Building Green
  • Reduce environmental impact
  • Respect their sites
  • Use fresh water efficiently
  • Good indoor air quality
  • Resource and energy efficient
  • High environmental performance
  • Make use of construction material wisely
  • More durable/less maintenance
  • Lower operating costs

6
Respect Their Sites
  • Well-designed building
  • Shape and orientation
  • optimized to take advantage of sunlight, site,
    and natural features
  • Oriented on an east-west axis
  • Existing buildings can benefit from the landscape
  • Deciduous trees along a southwest to northwest
    feature can reduce the impact of solar heat gains

7
Use Fresh Water Efficiently
  • Homes use hundreds of gallons of water each day
  • Reduce water use by about half compared to homes
    constructed in 1980s
  • Low-flush toilets
  • Well insulated hot water piping
  • Low-flow shower heads and faucets
  • Dishwashers and clothes washers that have
    water-miser features

8
Efficient Use of Fresh Water Contd.
  • Main solar heated tank
  • Instantaneous water heaters
  • Planned plumbing
  • Catchment systems
  • Use native plants with high drought resistance
  • Use drought resistant grass
  • Use lawn chemicals and fertilizer sparingly

9
Good Indoor Air Quality
  • Free of unhealthy levels of indoor air pollutants
  • Radon gas
  • Excess moisture
  • Mold and mildew
  • Formaldehyde
  • Passive tobacco smoke
  • Particles and dust
  • Mite allergen

10
Good Indoor Air Quality Contd.
  • Low cost ventilation techniques
  • Boost indoor air quality
  • Benefit allergy sufferers
  • Reduces their discomfort
  • Lower air leakage and fewer spores, pollen
    grains, and less duct

11
Reduce Energy Waste
  • Air tight construction
  • High levels of insulation
  • High performance windows and doors
  • Using efficient electric lighting and plug-in
    appliances
  • Upgrading to high efficiency furnaces, heat
    pumps, and boilers

12
Reduce Energy Waste Contd.
  • Building orientation
  • Collect winter solar heat
  • Avoid summertime sun
  • Solar energy
  • provides a significant amount of natural light
  • passive solar heat gain
  • natural ventilation
  • Up to 65 75 of utility bills could be saved
    compared to a conventional home

13
Conventional Homes
  • Misuse water, energy, and materials
  • Not oriented for passive solar heating
  • Poorer indoor air quality
  • Use toxic substances
  • Not designed for re-use and disassembly

14
Materials to be Chosen
  • Value-engineered products
  • Advanced framing and composite truss joists
  • Durable materials
  • Thermal mass
  • Natural materials
  • No exposure to toxic or dangerous working
    conditions

15
Materials to be Chosen
  • Products not heavily packaged
  • Reduce waste
  • Minimize construction site and landfill disposal
    problems
  • Water-based paints, adhesives, sealants, and
    finishes
  • Reduce use of petrochemicals
  • Simplifies cleanup

16
Dimensional Lumber
  • Wood used in constructing the wall, floor, and
    roof framing
  • Advantages of wood
  • Tolerant to novices
  • Very attractive
  • Special tools are not needed
  • Disadvantages
  • Termite or moisture failure

17
Engineered Wood
  • Recycled wood materials
  • Laminated wood chips
  • Strands and fingerjointing
  • Products
  • I-beams
  • Laminated beams
  • Fingerjointed studs

18
Engineered Wood Contd.
  • Advantages
  • Waste wood and entire trees can be used
  • Minimizes waste
  • Uses smaller dimensional wood
  • Less than 2x10
  • Allows smaller trees to be used
  • Higher tolerances in stability, consistence,
    straightness, and strength are more precise than
    dimensional lumber
  • Maintenance free
  • Slip resistant
  • No warping, splintering, cracking, rotting, or
    refinishing

19
Engineered Wood Contd.
  • Disadvantages
  • General public is not aware of this product
  • Cost is higher than for standard lumber unless
    ordered in large quantity
  • Limited sources
  • Cost will go down as public becomes more aware
  • Highly competitive because of labor savings and
    reduced job site waste

20
Composite Decking
21
Engineered Sheet Materials
  • Made of recycled content or reconstituted
    materials
  • Recycled content sheet products
  • Include any percentage of recycled material
  • newsprint
  • Agricultural byproducts
  • Wood waste
  • Reconstituted materials
  • Use chipped or stranded small-diameter trees
  • Bound together into forms suitable for building

22
Engineered Sheet Materials Contd.
  • Examples
  • Hardboard made from waste wood
  • Wallboard made from perlite, gypsum, and recycled
    post-consumer newsprint
  • 100 recycled newsprint fiberboard
  • Fiberboard made from straw

23
Engineered Sheet Materials Contd.
  • Advantages
  • Most of the products are derived from
    manufacturing processes which are more
    material-efficient than past processes
  • Newer recycled content and reconstituted
    materials are fabricated in modern facilities
    that are efficient and compliant with strict
    environmental regulations
  • Disadvantages
  • Cost more than traditional sheet materials
  • Shipping costs for small quantities are quite
    expensive

24
Engineered Siding
  • Reconstituted and recycled content
  • Steel and aluminum
  • Primarily fabricated from recycled material
  • Advantages
  • Offers superior longevity compared to wood siding
  • Require much less energy in a recycled form
  • Steel is a strong, termite resistant,
    nonrenewable resource
  • Offers some fire protection
  • Cost is competitive

25
Flyash Concrete
  • Defined by the ACE Committee 116 as the finely
    divided residue resulting from the combustion of
    ground or powdered coal, which is transported
    from the firebox through the boiler by flue
    gases
  • By-product of coal-fired electric generating
    plants

26
Flyash Concrete Contd.
  • Technical Benefits of using high volume flyash
  • Higher compressive strength over time
  • More durable concrete
  • Less permeable concrete
  • Less shrinkage
  • Less creep
  • Lower heat of hydration
  • Less migration of bleed water to the slab surface
  • Better pumpablilty

27
Flyash Concrete Contd.
  • Technical drawbacks
  • Slower rate of compressive strength gain
  • May be more difficult to finish
  • One more product to control at the point of
    batching
  • Environmental and non-technical benefits
  • Costs less than cement
  • Saves the energy required for making cement
  • Reduces the emissions of global warming gasses
  • Usefully employs a waste product

28
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31
Earth Materials
  • Brick Stone products
  • Caliche
  • Soil blocks
  • Rammed earth

32
Locally Available Earth Materials
  • Advantages
  • Reduces energy costs and materials costs due to
    reduced transportation costs
  • Brick and stone
  • aesthetically pleasing
  • Durable
  • Low maintenance
  • Provide excellent thermal mass
  • Can be used to provide radiant heat for interior
    use
  • Weather well which eliminates the need for
    refinishing and sealing

33
Earth Materials Contd.
  • Caliche block
  • Soft limestone material
  • used for applications similar to brick and stone
  • Special structural and finishing characteristics
  • Rammed earth
  • Walls made from moist, sandy soil
  • 30 clay and 70 sand
  • Advantages of both
  • used for structural walls
  • offer great potential as low-cost material
    alternatives with low embodied energy
  • Can be produced on-site
  • fireproof

34
Cost for Earth Materials
Brick Approx. 2 per square foot (4 inch diameter) and up depending on thickness
Stone 4 to 15 per square foot (material) depending on type
Compressed Soil Block Approx. 1.80 per square foot (9 inches thick)
Earth Block made from Labor-intensive Methods Cost is significantly less
35
Floor Coverings
  • Carpeting and padding
  • Cement materials
  • Stone and Marble
  • Sheet goods
  • Vinyl and linoleum
  • Tile
  • Rubber
  • Cork
  • Wood

36
Carpeting and Padding
  • Recycled-content carpeting
  • PET
  • Nylon
  • Wool
  • Recycled-content padding
  • Old padding
  • Reclaimed carpet fibers
  • Rubber-based recycled padding

37
Carpeting and Padding
  • Advantages
  • Materials avoid landfill
  • PET
  • Durable
  • Stain resistant
  • Nylon
  • Durable
  • Aesthetically pleasing
  • Wool
  • Durable
  • Flame resistant
  • Provides excellent indoor environmental quality

38
Carpeting and Padding
  • Disadvantages
  • Volatile Organic Compounds (VOC)
  • Present in the binders
  • Formaldehyde Outgassing
  • Rubber-based recycled padding can outgas
  • Excellent medium for dust mites and microbial
    agents
  • Carpet emissions will dissipate within 48-72
    hours with proper ventilation

39
Alternatives to Commercialized Carpets
  • Carpet tiles with tackless installation
  • Aid in spot replacement
  • Longer life
  • Fusion-bonded carpets
  • Use heat instead of adhesives
  • Reduces VOCs

40
Natural Carpets
  • Made from grasses, cotton, and wool
  • Advantages
  • Minimal treatment
  • Use renewable resources
  • Durable
  • Aesthetically pleasing
  • Disadvantages
  • Costly

41
Cementitious Materials
  • Provide opportunities for integrating the floor
    finish with the building structure
  • Durable
  • Low maintenance
  • Provide the opportunity for using recycled
    materials

42
Stone and Marble
  • Low-embodied-energy materials
  • Low maintenance
  • Durable
  • Regional sources save transportation costs

43
Sheet Goods
  • Available in rolls or tiles
  • Require adhesives for installation
  • Vinyl and Linoleum
  • Advantages
  • Low cost
  • Durable
  • Low maintenance
  • Disadvantages
  • Extremely difficult to recycle

44
Sheet Goods Contd.
  • Recycled-content tile
  • Waste glass
  • Light bulbs and auto windshields
  • Byproduct of feldspar mining
  • Higher priced than average tile products
  • Rubber
  • Highly recycled content
  • Cork
  • Excellent sound-absorbing material
  • recyclable

45
Recycled Tire Rubber Flooring
46
Cork Floor Tiles
47
Wood
  • Provide optimal environmental benefits
  • Renewable and long lasting material
  • Easy maintenance
  • Aesthetically pleasing
  • Reuse and disassembly

48
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49
Bamboo Flooring
50
Roofing Materials
  • Shingles, tile, and roof panels
  • Slate, clay, and cementitious roof materials
  • Advantages
  • Very durable
  • Disadvantages
  • Very heavy
  • Clay roof materials are costly
  • Fiber-cement composite roof materials
  • Advantages
  • Lighter (325-500 pounds per square)
  • Use fiber materials resourcefully
  • Some use waste paper and wood fiber
  • 60-year warranties

51
Roofing Materials Contd.
  • Metal roof materials
  • Steel and aluminum
  • Advantages
  • Contain high percentages of recycled content (up
    to 100 in many aluminum products)
  • Shingle appearance
  • Easily recycled
  • Lightweight
  • Durable
  • Disadvantages
  • Requires premium metal coatings, factory-finished
    panel, or watertight construction detailing when
    used for housing

52
Roof Materials Contd.
  • Asphalt shingles
  • Advantages
  • Up to 25 recycled content
  • Mixed paper in the base
  • Reclaimed minerals in the surface aggregate
  • Disadvantages
  • Weigh approx. 230 pounds per square
  • Not easily recycled
  • Typical life is 20-30 years

53
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54
Eco-Shake
  • 100 recycled materials
  • Reinforced vinyl
  • Cellulose fiber
  • Designed to resemble and replace wood shake
    shingles
  • Does not crack, fade, or curl
  • Requires no maintenance
  • 50 year warranty

55
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56
Structural Wall Panels
  • Structural insulated building panel
  • Foam sandwiched in between two panels of
    structural sheathing material
  • Foam is similar to a foam coffee cup
  • 6 12 inches thick
  • Replace standard stud/insulation/sheathing wall
    system
  • Fabricated with 3 types of foam cores
  • Molded expanded polystyrene (MEPS)
  • Extruded polystyrene (XEPS)
  • Urethane (polyurethane and polyisocyanurate)

57
Structural Wall Panels Contd.
  • Structural sheathing material
  • Plywood
  • Waferboard
  • Oriented strand board (OSB)
  • Sheetrock
  • Metal

58
Structural Wall Panels Contd.
  • Advantages
  • Environmentally friendly
  • Very effective insulating qualities
  • Rapid installation
  • Consistent quality which minimizes waste
  • Oriented strand board uses fast growing trees
    which can not be used for dimensional lumber
    specifications
  • Disadvantages
  • Cost for material alone
  • 1.75 to 2.75 per square foot or higher
  • Slightly higher than conventional framing costs

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60
Windows
  • Fingerjointed windows
  • Use small pieces of wood
  • Need to be painted for aesthetic reasons
  • Recycled windows
  • Reuse of salvaged windows
  • Windows of recycled content

61
Windows Contd.
  • Glazing systems
  • Single pane, double glazed, triple glazed, low-E,
    and gas filled
  • Determine R value
  • Light transmission characteristics
  • Window style
  • Double hung, casement, awning
  • Indicate operating characteristics

62
Windows Contd.
  • Window frames
  • Wood
  • Advantages
  • Natural product
  • Moderate insulator (R1 per inch)
  • Disadvantages
  • Requires some maintenance
  • Vinyl
  • Advantages
  • Lifetime free maintenance
  • Disadvantages
  • Uses nonrenewable petroleum source for extrusion

63
Windows Contd.
  • Window frames
  • Aluminum
  • Advantages
  • Lifetime free maintenance
  • Disadvantages
  • Oxidize over the years

64
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65
Green Home in Bowie, MD
  • 225,000
  • Two-story 3,600 square feet
  • Foundation-forming system
  • Factory manufactured wall system in PA
  • Includes recycled polystyrene
  • Foam - 2 inches thick
  • Superior wall
  • Extremely dense
  • Resistant to moisture
  • Concrete support studs
  • Long lived product
  • Put on gravel footer that drains well

66
Green Home in Bowie, MD
  • Walls
  • Autoclaved aerated concrete block
  • Uses aerated silicate
  • Very resistant to moisture and heat
  • Require little maintenance
  • Wallboard
  • 70 gypsum and 30 recycled metal

67
Green Home in Bowie, MD
  • Exterior walls
  • Autoclaved aerated concrete block only
  • R-value is low
  • House is tight
  • Wall insulation
  • Spray applied
  • Recovered newspaper
  • Not super insulated
  • Wood siding
  • Recovered wood fiber
  • Waste wood byproducts

68
Green Home in Bowie, MD
  • Completed steel frame
  • Made largely from recycled metal
  • Insulating board
  • Contains recycled polystyrene materials
  • Metal roof
  • Extremely long lived
  • Requires little maintenance
  • South portion was laminated
  • Roofing panels
  • Lightweight cedar-shake Nailite
  • Resin from recycled old computer housings

69
Green Home in Bowie, MD
  • Windows
  • Exterior
  • Low-E argon vinyl
  • Require little maintenance
  • Interior
  • Wood
  • 50 sawdust
  • 50 polyethylene from recycled plastic grocery
    bags
  • Requires painting

70
Green Home in Bowie, MD
  • Heating system
  • Complete heat system by Lennox
  • Hot water tank
  • Domestic
  • Coil system
  • One burner
  • 93 efficient
  • Water heater and furnace
  • One unit
  • Same high efficiency

71
Green Home in Bowie, MD
  • Power display output system
  • 1.6 kW system
  • Charges batteries or parallels the utility grid
  • Net metering
  • 30 40 energy savings

72
Green Home in Bowie, MD
73
DEP South Central Regional Headquarters in
Harrisburg
  • 5,700,000
  • Construction only
  • 73,000 square foot high-performance green
    building
  • Reused the brownfield site
  • DOE2 computer simulations
  • Optimized building systems
  • Energy budget cut in half compared to a
    conventional office building

74
DEP South Central Regional Headquarters
  • Low velocity, individually controlled air volumes
  • Delivered at floor level through Krantz diffusers
  • Provides cool/warm airflow at around 6 6
    above finished floor
  • Maximizes electrical flexibility
  • State-of-the-art quick-release cabling and floor
    boxes
  • Comfortable, productive work environment

75
DEP South Central Regional Headquarters
  • Ceiling plan
  • 9 foot ceiling height
  • Acts as a reflecting surface for pendant mounted
    indirect illumination
  • Lighting system
  • Task and ambient
  • Reduced from 100 foot-candles to 30 foot-candles
  • Reduces energy consumption by 50

76
DEP South Central Regional Headquarters
  • High performance features
  • Integrated mechanical, lighting, and ventilation
    systems
  • Good air quality
  • Good thermal quality
  • Increase in occupant comfort and productivity
  • Gas fired adsorption chiller
  • No compressor
  • No ozone-depleting refrigerants

77
DEP South Central Regional Headquarters
  • Other high performance features
  • Desiccant wheel for dehumidification/humidificatio
    n recovery
  • Eliminates the need for energy inefficient
    humidification control systems
  • Displace 25 tons of the latent cooling load
  • High performance operable windows
  • Argon filled low-E glass
  • Increases insulating capacity

78
DEP South Central Regional Headquarters
  • Other high performance features
  • T8 fluorescent lamps
  • Electronic ballasts
  • Strategically located motion sensor switching
  • Reduce electrical power consumption
  • Armstrong high reflectance ceiling tiles
  • 10 more reflective than conventional ceiling
    tiles

79
DEP South Central Regional Headquarters
  • Ceramic tiles
  • no toxic substances or waste
  • 70 recycled post-industrial and post-consumer
    glass in a ceramic matrix
  • Carpet
  • Nearly 100 recyclable
  • Wall finishes
  • Cork tiles
  • Carlisle single-ply roofing membrane
  • Mechanically fastened
  • Minimized use of solvent-based chemical adhesives

80
DEP South Central Regional Headquarters
  • Other materials used
  • Recycled structural steel
  • Solvent-free water-based, non VOC-emitting paint
  • Recycled asphalt
  • Acrylic concrete sealer
  • Eliminates off-gassing in the underfloor supply
    air plenum
  • Window blinds
  • Minimize solar heat gain
  • Maintain high levels of visual access to exterior
    views

81
DEP South Central Regional Headquarters
82
Conclusions
  • Promotes
  • Reducing waste
  • Implementing recycling
  • Using renewable materials and energy sources
  • Implementing a better way of manufacturing
  • Directly benefits you
  • Energy efficiency up to 75 savings
  • Ease on natural resources
  • High level of comfort
  • Better value when you sell
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