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Integrating Brownfields and Eco-Industrial Development

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Integrating Brownfields and Eco-Industrial Development Presented by Dion Jackson, Project Manager The National Center for Eco-Industrial Development – PowerPoint PPT presentation

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Title: Integrating Brownfields and Eco-Industrial Development


1
Integrating Brownfields and Eco-Industrial
Development
  • Presented by
  • Dion Jackson, Project Manager
  • The National Center
  • for Eco-Industrial Development

2
Outline
  • The National Center for Eco-Industrial
    Development
  • What is Eco-Industrial Development?
  • Industrial Ecology
  • Eco-Industrial Parks
  • Environmentally Benign Engineering
  • Integrating Brownfields and Eco-Industrial
    Development

3
The National Center for Eco-Industrial
Development
  • Grew out of the partnership between Leonard
    Mitchell and Ed Cohen-Rosenthal
  • University of Southern California
  • Cornell University
  • to develop tools to expand the development of
    eco-industrial parks through-out the United
    States
  • Funded by the Economic Development
    Administration, U.S. Department of Commerce and
    the Environmental Protection Agency

4
What is Eco-Industrial Development?
  • The creation of job opportunities through
    industrial expansion, especially in economically
    distressed communities, by applying principles of
    industrial ecology, establishing eco-industrial
    parks, and expanding use of environmentally
    benign manufacturing processes and techniques.

5
Industrial Ecology
  • "One of the most important concepts of industrial
    ecology is that, like the biological system, it
    rejects the concept of waste."
  • - Industrial Ecology (Graedel and Allenby,
    Prentice Hall, 1994)

6
Eco-Industrial Park
  • An industrial park that is designed to increase
    the economic return at the same time it decreases
    its ecological impact.
  • Models in use
  • By-Product Synergy
  • Resource Recovery Park
  • Green Technology Park
  • Application of Eco-Industrial Strategies
  • Resource Circulating Economy

7
By-Product Exchange
Scrap Wood
Sawdust
Furniture Factory
Particle Board Factory
Recycled Paper Manufacturer
WastePaper
Municipal Recovery Facility
Aquaculture
Biomass
Steam
Steam
Cogeneration Facility
Ethanol Production
8
By-Product Exchange
  • Ethanol
  • By-Products
  • Lignin
  • Gypsum
  • Yeast

Ethanol Plant
Potential Exchange Partners Wallboard
Manufacturer Animal Feed Manufacturer
Major Inputs
Agricultural residues or Wood wastes Sulfuric
Acid Steam
from a Cogeneration Facility
9
Industrial Symbiosis Kalundborg, Denmark
10
Eco-Industrial Park
  • An industrial park developed through the
    application of eco-industrial strategies such as
  • Waste Heat Recovery
  • Cogeneration
  • By-Product Exchange
  • Green Building Development
  • Creation of New Eco-Industrial Industries and
    Businesses

11
Integrating Brownfields and Eco-Industrial
Development
12
Strategies to Integrate Remediation
  • Remediation Recovery Network
  • Eco-Industrial Feedstock
  • Integrated System of Remediation and
    Eco-Industrial Development

13
Case Studies Linking Remediation to Brownfields
  • 1) Stabilization of contamination and site
    redevelopment
  • 2) Adaptation of biofilter remediation technology
    to perform industrial pollution control
  • 3) Eco-Industrial based redevelopment

14
Site Remediation
  • Selection of a site depends on physical and
    chemical properties of contaminants at the site.
  • Particularly, at this site, contaminated soil
    will be first treated by bioremediation to remove
    organics and then by solidification to reduce the
    leachability of metal contamination.

15
Benefits in Redeveloping the Site
  • Health benefits from the removal of VOCs from
    the soil and the chemical reduction of chromium.
  • Cost savings by eliminating the need for any
    off-site transportation and landfill costs.
  • Elimination of liability issues associated with
    off-site disposal.
  • Cost benefits due to the stabilization of metal
    contaminants providing a low life cycle cost in
    other treatment scenarios.

16
Integrating Biofiltration for Remediation and
Redevelopment
  • An attractive alternative because of its low
    costs, inherent simplicity, and lack of secondary
    wastes.
  • An advantage of using biofilters is that the
    undesirable compound is broken down biologically
    and destroyed rather than being transferred to
    another media.

17
Site Remediation
  • Biofilters- break down hazardous
  • contaminants into harmless products
  • Extremely cost effective
  • Under proper conditions, can convert virtually
    all relevant contaminants to harmless products.
  • Most effectively used to treat nonhalogenated
    VOCs and fuel hydrocarbons.

18
Integration with Industrial Site Redevelopment
  • Biofilter can be used as a VOC control device for
    a single firm or as a shared technology that
    provides air pollution control services for a
    number of firms on the site.
  • Refer to Box 8
  • Economic feasibility and regulatory permit
    requirements must be considered when evaluating
    biofiltration for commercial pollution control.

19
Eco-Industrial based Redevelopment- Integrating
Technology and Design
  • Of the 450,000 brownfields sites in the US,
    roughly 200,000 sites contain abandoned
    underground storage tanks or are impacted by
    petroleum leaks.
  • USTfields address such situations
  • New brownfields legislation includes 3 new areas
    land contaminated by petroleum products, land
    contaminated by a controlled substance, and
    authorizes up to 200 million per year for
    brownfields assessment and cleanup.

20
Site Remediation- Petroleum Sites
  • Reclaiming petroleum-contaminated properties can
    return the land to productive use, create private
    or public investment in redevelopment and
    job-producing businesses, and renew valuable
    space within local communities.

21
Site Remediation- Avoiding Remediation Through
Design
  • A more environmentally and economically effective
    strategy would be to to prevent the future need
    for remediation.
  • Using less material in the production process,
    being more energy efficient, handling
    manufacturing processes more responsibly, and
    creating durable goods can reduce remediation
    costs while creating competitive advantage in the
    marketplace.
  • EIP creates a community of manufacturing and
    service businesses located together in a common
    site.

22
Next Steps in Integrating Brownfield Remediation
and Eco-Industrial Development
  • New opportunities to apply successfully link
    remediation and site design include urban sprawl,
    outmigration from center cities, and the degraded
    landscapes left behind by the transition from an
    urban industrial economy to a suburban service
    economy.

23
Presented by The National Center for
Eco-Industrial Development
24
Brownfield Remediation and Eco-Industrial
Development
  • EID provides a framework for potential brownfield
    reuse and redevelopment to bring about economic
    development for the local community.
  • Development occurs through the recruiting of
    clean industries that place contaminated land
    back into more productive economic use.
  • Eco-Industrial strategy is to attract clean
    businesses by drawing on urban advantages such as
    market and customer access, nearby labor pools,
    transportation access and feedstock supplies to
    feed an eco-industrial strategy.

25
  • The Mission of the National Center for
    Eco-industrial Development is to facilitate job
    creation and sustainable industrial expansion in
    distressed communities around
  • the nation by applying principles of industrial
    ecology establishing eco-industrial parks, and
    expanding use of environmentally benign
    manufacturing processes and techniques.

26
Eco-Industrial Parks
  • " By collectively managing environmental and
    energy issues, Eco-industrial park members can
    enhance their environmental and economic
    performance and, as a result, achieve a combined
    benefit that is greater than the benefits each
    company would realize from optimizing only it's
    individual performance."
  • ECO-EFFICIENCY TASK FORCE REPORT, U.S.
    PRESIDENT'S COUNCIL ON SUSTAINABLE DEVELOPMENT,
    1996

27
Eco-Industrial Park
  • An industrial park developed through the
    application of eco-industrial strategies such as
  • Waste Heat Recovery

28
Cogeneration
  • Natural GasgtgtgtgtgtTurbine gtgtgtgtgtElectricity
  • PLUS Capture of heat for industrial processes or
    for district heating or to generate more
    electricity

29
Eco-Industrial Park
  • An industrial park developed through the
    application of eco-industrial strategies such as
  • Waste Heat Recovery
  • Cogeneration
  • By-Product Exchange
  • Green Building Development

30
Example of Eco-Industrial Development
  • Riverside Eco-Park in Burlington, Vermont
  • Jobs Generated 422
  • Costs Saved
  • 1,925,000 per year
  • Municipal Solid Waste Avoided
  • 32 tons per year
  • Waste Energy Recaptured
  • 111,600 BTUs per year

31
Economic Benefits for Companies
  • Cost Savings Enhanced Competitiveness
  • Revenue Generation
  • Improved Opportunities for Investment
  • Access to New Technology
  • Improved Human Resources

32
Community Economic Benefits
  • Improved Business Attraction, Expansion,
    Retention
  • Local Import Substitution
  • Brownfield Redevelopment
  • Reduced Infrastructure Development Costs
  • Improved Quality of Life

33
Environmental Benefits
  • Reduced Greenhouse Gas Emissions
  • Reduced Air Emissions Improved Community Health
  • Promotion of Pollution Prevention the 4 Rs
    (Reduce, Reuse, Recycle, Recover)
  • Improved Resource Conservation
  • Promotion of Green Technology
  • Increased Environmental Awareness
  • Regeneration of Green Space

34
MethodologyEnvironmental And Public Health
Threats
  • Identified common Southern California industries
  • Identified chemicals typically found at
    brownfields sites formerly occupied by those
    industries
  • Summarized human health hazards for identified
    chemicals based on long-term exposures to low
    levels of contaminants.
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