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Design for the Environment Program

Design for the Environment Program. Overview April 6 th , 2005. Overview. DfE’s Unique “License to Operate” Past Success and Lasting Change Current Focus and Potential for Success. DfE Projects have touched more than 200,000 business facilities and approximately 2 million workers.

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Design for the Environment Program

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  1. Design for the Environment Program Overview April 6th, 2005

  2. Overview • DfE’s Unique “License to Operate” • Past Success and Lasting Change • Current Focus and Potential for Success DfE Projects have touched more than 200,000 business facilities and approximately 2 million workers.

  3. DfE’s Unique License to Operate DfE’s value to industry and our unique “license to operate” come from applying the technical tools, models and expertise that OPPT has developed through reviewing thousands of new chemicals under TSCA.

  4. Past Success andLasting Change

  5. Example from the Drycleaning Industry • The DfE Garment Care Partnership • Encouraged the use of environmentally preferable cleaning methods and • Promoted technology and best practices for drycleaning with perchloroethylene • Industry Perc. Use has Decreased Substantially • DfE contributed to the reduction

  6. Examples from the Electronics Industry DfE aided U.S. manufacturers to promote competitiveness and environmentally friendly manufacture • DfE Printed Wiring Board (PWB) Partnerships -- Examined cost, performance and environmental profile • Surface Finishes – comparison of lead and non-lead methods • Reduction in lead use was estimated to be 2 million pounds per year over the first 3 years • Making Holes Conductive • Benefits include: • 240,000 lbs. per year decrease in formaldehyde use • 400 million gallons of water saved per year • 15 billion BTUs of energy saved per year

  7. Current Focus andPotential for Success

  8. Lead-Free Solder Partnership Life-Cycle Assessment • The U.S. electronics industry is moving away from lead solder • E.U. will ban lead in electronics by 2006 • Industry approached DfE based on past relationship • Partnership will help U.S. Industry adopt lead-free alternatives and maintain international competitiveness • Tin-lead and three alternatives • Significant potential for improvement – Annual lead solder use in electronics estimated at 176 million pounds • Draft results in Spring 2005

  9. Furniture Flame Retardancy Partnership • Collaboration between DfE, chemical and furniture manufacturers, the Consumer Product Safety Commission, and NGOs. • Inform and influence the selection of flame retardants for foam • Predominant flame retardant being phased-out by the end of 2004. • Need for fire safety will likely increase based on planned national standards. • Decision-making for alternatives to a 15.7 million pound per year chemical. • Environmental and human health data paired with industry performance data. • Longer-term • Develop health and safety data needed to adequately risk characterization • Flame retardants in all furniture components – continued role for partnership • Targeted DfE Innovation Challenge – for chemical and non-chemical solutions

  10. DfE FormulatorPartners with Chemical Product Manufacturers to Improve Health and Environmental Profile of Products DfE Review • Considers Every Formulation Ingredient • Prepares Health and Environmental Profile (Existing Data, Estimation Models, Chemical Expertise) • Situates Chemical on Continuum of Improvement • Recommends Safer Substitutes Continuum of Improvement Formula Ingredient by Use Class Sustainable Improved Of Concern Characteristics of Sustainable Ingredient Characteristics of Improved Ingredient Characteristics of Ingredient of Concern

  11. DfE Formulator Partnerships • Offer Companies Access to EPA Expertise, Advice and Recognition • Yield Measures of Environmental Benefit • Partnerships have reduced the use of millions of pounds of chemicals of concern • More than 60 recognized products in the following sectors: Industrial/Institutional Cleaners and Laundry Detergents, Holding Tank Treatments/Deodorizers, and Industrial Coatings

  12. Foam Producer Total Air Diisocyanate Releases: 22,306 lbs Nearest School: 0.6 miles Nearest Hospital: 1.2 miles Hospital Asthma Reduction Strategy • Background: • Diisocyanates - leading cause of occupational asthma • Linked to asthma in children near foam facilities • Ranked among the most toxic risk-screening (RSEI) chemicals • Most Significant Uses • Foam manufacture uses 69% of 2.2 billion pounds of diisocyanates produced annually • Auto Refinish is most dispersive use • DfE’s Role: • Leverage the successful auto refinish partnership best practices approach • Develop best practices for flexible foam • Identifying hybrid isocyanate-free polyurethanes

  13. Asthma Reduction Strategy (cont.) • Project Planning for Flexible Foam: • Evaluate process efficiencies and best practices • Identify incentives and cost/benefits • Partner with foam facilities and conduct pilot to measure results • Promote safer chemicals and processes • Measure reduction in emissions and impact on asthma reduction in community and workplace • Project Planning for Auto Refinish: • Work with stakeholders to develop a plan to leverage best practices

  14. Asthma Reduction Strategy (cont.) • Potential Benefits: • Industry partnership and commitment to continuous improvement • Cost savings, reduced emissions in plants and neighborhood • Foam facilities: >331,000 lbs diisocyanates and 22 million lbs of other toxic air emissions reported • Auto refinish: > 50,000 shops around the country with potential worker and community exposure to automotive paint overspray • Stakeholders: • Polyurethane foam manufacturers, chemical manufacturers, paint formulators, trade associations, raw material suppliers, ATSDR/CDC, local government and communities

  15. Summary • Collaborate broadly; • Leverage OPPT technical tools and expertise; • Help businesses weigh environmental considerations; and • Focus on opportunities for lasting change.

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