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Advanced Concepts

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The dismantling of a structure in the reverse order of its ... Cabinetry/fixtures. Attic insulation. On-site removal. Interior finish(es) Non-load bearing walls ... – PowerPoint PPT presentation

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Title: Advanced Concepts


1
Advanced Concepts
  • Lecture 11

2
Overview
  • Beyond todays green buildings
  • Deconstruction
  • Construction Ecology and Metabolism

3
Deconstruction
  • The dismantling of a structure in the reverse
    order of its construction for the purposes of
    removing/separating 1) reusable and 2) recyclable
    materials to the maximum extent practicable, in a
    cost-effective and safe manner.

4
Deconstruction
The whole or partial disassembly of structures
for the purpose of reusing salvaged building
materials.
Diversion though Direct material reuse Upcycling
Recycling Downcycling
The primary intent is to divert the maximum
amount of salvaged building materials from the
CD waste stream through reuse
5
Deconstruction Benefits
  • Region
  • Employment Opportunities
  • Encourage new businesses
  • Provide low cost building materials
  • Networks salvagers, builders, and reusers

Environment - Reuse materials Conserve raw
materials, reduce energy required for new
materials, preserve landfill space
  • Money
  • Recycling revenues
  • Reduce waste management expenses
  • Tax income from new businesses
  • Marketability of a Green region

6
Cost-Effectiveness
  • Demolition
  • (Demolition Disposal) (Contract Price)
  • Deconstruction
  • (Deconstruction Disposal Processing)
    (Contract Price Salvage Value)

7
Deconstruction Markets
  • Habitat for Humanity ReStores
  • Community development non-profits
  • HUD - HOPE VI
  • Military bases - BRAC
  • Flood buy-out - FEMA
  • Institutions and municipalities
  • Job-training programs
  • Commercial demolition w/salvage
  • Redevelopment/historic districts

8
Reuse Markets
  • On-site reuse
  • Export
  • Do-it-yourselfers
  • Historic preservation
  • Renovation
  • Value-added products
  • Environmental clients
  • High end architectural salvage

9
Project Specific Deconstruction Diversion Rates
10
Asbestos abatement
Interior conditions
11
Interior fixtures
Windows/doors
12
Ceiling(s)
Cabinetry/fixtures
13
Attic insulation
On-site removal
14
Interior finish(es)
Non-load bearing walls
15
Roof finish
Roof sheathing
16
Roof structure
Exterior finish
17
Wall structure
Wall structure (2)
18
De-nailing
Flooring
19
Floor structure
Salvaged flooring
20
Brick
Lumber
21
Ft. Chaffee Army Base, AR
22
Hume Hall, University of Florida
23
Value-adding
24
Value-adding (2)
25
Economics
  • Deconstruction vs. Demolition
  • 21 higher first cost
  • 37 lower net cost

26
Best Practices
  • Goal 1 - Safety
  • Goal 2 Maximum reusable materials
  • Goal 3 Remove building from site
  • Goal 4 Materials management hierarchy
  • Pile system source separation of reuse,
    recycle, disposal.
  • Clean-up and flow
  • Handle no more than three times.
  • 1 Deconstruct, 2 Process/Load, 3 Unload

27
Best Practices (2)
  • Deconstruction site layout
  • LOFO Last On, First Off
  • Never hit unless intend to break.
  • Use lever, wheels, incline plane, fulcrums.
  • Always work from the tongue side with any TG
    material.
  • Always pull the nail in the direction that it
    went into the material.
  • Apply the building technique and tools to the
    deconstruction.

28
Deconstruction Results
  • More savings in salvage than reduced disposal
  • Increase tipping fees - keep used materials price
    lower
  • Hazardous materials management enforcement
  • Training - increase efficiency
  • Combine deconstruction and reuse business
  • On-site sales and pre-sales
  • Contracts buy-backs

29
CD Reuse and Recycling Agenda
  • Demolition delay deconstruction permit
  • Construction debris deposit program
  • Volume-based and variable disposal fees
  • On-site sales permit
  • Internet exchanges pre-brokering
  • Level environmental playing field
  • Demonstrations acceptance of reuse in new
    construction
  • Value-adding processing, grading, products

30
  • Web Resources

31
Web Resources
  • Environmental Building News
  • www.buildinggreen.com
  • Global Environmental Options
  • www.geonetwork.org
  • Rocky Mountain Institute
  • www.rmi.org
  • Smart Growth Network
  • www.smartgrowth.org
  • Oikos REDI Green Building Catalogue
  • www.oikos.com/

32
Web Resources (2)
  • US Green Building Council
  • www.usgbc.org
  • NPS Guiding Principles to Sustainable Design
  • www.nps.gov/dsc/dsgncnstr/gpsd
  • Center of Excellence for Sustainable Development
  • www.sustainable.doe.gov
  • Southface Energy Institute
  • www.southface.org/

33
Web Resources (3)
  • Solstice CREST
  • http//solstice.crest.org
  • City of Austin Green Builder Program
  • www.ci.austin.tx.us/greenbuilder/
  • Energy Star Buildings and Products
  • www.energystar.gov/
  • Certified Wood Products
  • www.certifiedwood.org
  • WasteSpec
  • www.tjcog.dst.nc.us/cdwaste.htm

34
Web Resources (4)
  • Florida House Institute
  • www.i4sd.org/index2.html
  • Florida Gulf Coast University - Green Building
    Project
  • www.fgcu.edu/greenbuilding/
  • Center for Construction and Environment
  • www.cce.ufl.edu/
  • Florida Solar Energy Center
  • www.fsec.ucf.edu/
  • Florida Green Building Coalition, Inc.
  • http//floridagreenbuilding.org

35
Overview-Construction Ecology
  • A highly successful international Green Building
    movement exists and is rapidly progressing
  • Buy-in is occurring by the public and private
    sectors and market demand is increasing
  • New products and services supporting this
    movement are appearing daily
  • BUT..the design, construction, operation, and
    disposition of Green Buildings is not based in
    science
  • The proponents of Green Building are architects,
    engineers, planners, and others with little or no
    education, training, or experience in ecology

36
Problem-Ecological Insights
  • Rationale Knowledge of ecology is a prerequisite
    to creating green buildings, otherwise we are
    guessing and using pure intuition
  • Problem How do we use ecology to inform our
    design, construction, operation, and disposition
    of the built environment?
  • Spinoff Questions
  • Should the built environment behave like a
    natural system?
  • Energy Use
  • Materials Flows
  • Should we merely use the metaphor of a natural
    system?
  • How do we interface natural and human systems?
  • How do we redesign our industrial system to
    behave like an ecosystem?

37
Construction Ecology
  • Ecology and Industrial Ecology as the basis for
    sustainable construction or green building
  • Industrial Ecology has made significant progress
    in the past decade Industrial Symbiosis
  • Lessons from nature
  • Closed loop cycling of materials zero waste
  • Maximize 2nd Law efficiency (effectiveness) and
    then maximize 1st Law efficiency
  • Nature is adaptable, diverse, and resilient
  • Emergent systems functioning on the edge of chaos

38
Pulsing Behavior of Systems
39
Lessons for the Built Environment
  • Interface buildings with nature and model based
    on nature
  • Make buildings part of the geological landscape
  • Design buildings that are deconstructable with
    components that are reusable and ultimately
    recyclable
  • Make buildings adaptable, flexible for multiple
    uses
  • Revise designs to account for global
    environmental problems global warming, ozone
    depletion
  • Integrate industrial and construction activities
    with ecosystem functions to sustain or increase
    the resilience of society and nature
  • Keep materials in productive use, implies keeping
    buildings in productive use
  • Use only renewable, biodegradable materials or
    their industrial equivalents such as recyclable
    industrial materials

40
The Gerling Insurance CompanyNuernberg
41
The Gerling Insurance BuildingFrankfurt a.M.
42
Mercedes Showroom StuttgartGround Coupling (1)
43
Mercedes Showroom StuttgartGround Coupling(2)
44
Concluding Thoughts
  • Natural systems hold the key, both as metaphors
    and actual examples
  • Green building lacks an adequate technical and
    philosophical basis which Construction Ecology
    may be able to provide
  • Construction Ecology is based on the integration
    of ecology, systems ecology, and Industrial
    Ecology
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