Design for the Environment Program (DfE) is a United States Environmental Protection Agency (USEPA) program, created in 1992, that works to prevent pollution, and the risk pollution presents to humans and the environment. [1] The EPA DfE program provides information regarding safer electronics, safer flame retardants, safer chemical formulations, as well as best environmental practices. [2] DfE employs a variety of design approaches that attempt to reduce the overall human health and environmental impact of a product, process or service, where impacts are considered across its life cycle. Different software tools have been developed to assist designers in finding optimized products (or processes/services).
The three main goals of DfE are:
Design for the Environment is a global movement targeting design initiatives and incorporating environmental motives to improve product design in order to minimize health and environmental impacts. The Design for the Environment (DfE) strategy aims to improve technology and design tactics to expand the scope of products. By incorporating eco-efficiency into design tactics, DfE takes into consideration the entire life-cycle of the product, while still making products usable but minimizing resource use. The key focus of DfE is to minimize the environmental-economic cost to consumers [4] while still focusing on the life-cycle framework of the product. By balancing both customer requirements as well as environmental and social impacts DfE aims to improve the product use experience both for consumers and producers, while minimally impacting the environment.
In the United States, Design for Environment is an EPA program which works to notify the public of less harmful substitutes to certain products. They do so by labeling environmentally safe products with a DfE label to provide information on safer or alternative products to those which use harmful chemicals.
There are four main concepts that fall under the Design for Environment umbrella. [6]
Life cycle assessment (LCA) is employed to forecast the impacts of different (production) alternatives of the product in question, thus being able to choose the most
environmentally friendly. A life cycle analysis can serve as a tool when determining the environmental impact of a product or process. Proper LCAs can help a designer compare several different products according to several categories, such as
energy use,
toxicity, acidification,
CO2 emissions,
ozone depletion,
resource depletion and many others. By comparing different products, designers can make decisions about which environmental hazard to focus on in order to make the product more environmentally friendly.
[7]
Modern day businesses all aim to produce goods at a low cost while maintaining quality, staying competitive in the global marketplace, and meeting consumer preferences for more environmentally friendly products. To help businesses meet these challenges, EPA encourages businesses to incorporate environmental considerations into the design process. The benefits of incorporating DfE include: cost savings, reduced business and environmental risks, expanded business and market opportunities, and to meet environmental regulations [8] .
Other than these two large brand names there are several other consumer product companies that are are apart of the EPA partnership program this includes:
This is just a short list of examples of some companies that are already designing for the environment. Design for the environment has become increasingly popular in today's industry, particularly in the IT industry and chemical design. By designing for the environment companies can reduce costs through lower energy and material use and recycling and reuse. There are also the benefits of meeting the changing consumer demands for greener company images which is a great incentive for more companies to design for the environment.
A business can design for the environment by [14] :
The design for the environment safer product labeling program aims to protect human health and the environment. DfE works alongside consumers and producers to enhance the safety of a wide assortment of products. The program is important because it only labels products as "DfE" when they have met an environmental standard set by the EPA. According to the EPA website currently over 2,700 products carry the DfE label making it easier for consumers to identify products which utilize safer chemicals in products such as household cleaning supplies. [15] However, cleaning products are only one of many products that are eligible for the label. Other products include septic system treatments and wastewater inoculants, car care products, carpet cleaners, several types of degreasing products, laundry-care products and several others. [16] Furthermore the DfE program works alongside producers to assist them in finding safer substitutes to current chemicals used, and thus helping to minimize the companies environmental impact and human health effects. [17] The procedure for safer product labeling consists of several steps which include selecting materials which will have the lowest environmental and health impacts, reducing the amount of material used, incorporating the " cradle-to-grave" concept of minimizing the impact of production/disposal as well as the impact during use of the product and enhancing the disposal process by using materials which can be recycled, disassembled or that will have a minimum landfill impact [18] .
EPA certified safe products are recognizable by the Design for the Environment (DfE) label. The label helps the consumer identify and choose products that are safer for human health and protect the environment. The DfE logo on a product symbolizes that the DfE scientific review team has screened each ingredient contained in the product for potential human health and environmental effects and have recognized the product as being the safest option for consumers.
Manufacturers who are partners for the Design for the Environment program have the right to display the DfE logo on recognized products. These manufacturers invest in research, development and reformulation, to ensure the ingredients contained in the finished product are safe to humans and protect the environment while maintaing or improving product performance.
Design for the Environment is an EPA program that distinguishes safer chemical products. EPA uses rigorous criteria to ensure that Design for the Environment-labeled products are safe for human health and the environment. The Design for the Environment label makes it easy for purchasers and users to quickly identify safer chemical products that do not sacrifice quality or performance. Design for the Environment has approved more than 2,000 industrial and institutional products. [20]
The EPA has imposed the National Ambient Air Quality Standards (NAAQS) to establish an air quality standard across the U.S. The NAAQS sets standards on six main sources of pollutants, which include emissions of: ozone (0.12 ppm per 1 hour), carbon monoxide (35 ppm per 1 hour), pollutant (primary standards), particulate matter (50g/m^3 at an annual arithmetic mean) , sulfur dioxide (80g/m^3 at an annual arithmetic mean), nitrogen dioxide (100g/m^3 at an annual arithmetic mean), and lead emissions (1.5g/m^3 at an annual arithmetic mean) [21] .
The Stratospheric Ozone Protection is under section 602 of the Clean Air Act of 1990. This regulation aims to decrease emission of chlorofluorocarbons (CFCs) and other chemicals that are destroying the stratospheric ozone layer. The protection initiative categorizes ozone-depleting substances into two classes: Class I, and Class II [22] .
Class I substances include 20 different kinds of chemicals and have all been phased-out of production processes since 2000. Class II substances consist of the 33 different HCFCs. The EPA has already begun plans to decrease emissions in HCFCs and plan to completely phase out the class II substances by 2030 [23] .
A firm operating in the electronics industry in SIC Codes 20-39 that has more than 10 full-time employees and consumes more than 10,000lbs per year of any toxic chemical lists in 40 CFR 372.65 must file a toxic release inventory [24] .
In order to help industries choose safer chemicals for applications, DfE conducts Alternatives Assessments. This program brings together environmental organizations, industry leaders, academia, and others to evaluate the environmental and health impacts of potential alternatives to problematic chemicals. The program uses a variety of approaches to investigate safer chemistries. Life-cycle assessment can be conducted to understand the phases (e.g., production, use, and disposal) where industry can make changes to realize environmental and health benefits. DfE Hazard-based Alternatives Analyses evaluate the hazards posed by chemicals during relevant phases in the product life cycle. These approaches can be applied to identifying safer alternative chemicals for applications that now use priority chemicals of concern. The outcome of an Alternatives Assessments Partnership provides industry with the information they need to choose safer chemicals, as well as avoid unintended consequences of switching to a poorly understood substitute. [26]
DfE's Best Practices approach is designed to enhance the awareness of health and environmental concerns, minimize pollution, and protect workers and communities by promoting the use of safer alternative chemical products and cleaner, more efficient practices. After a chemical ingredient has been reviewed by a DfE Alternatives Assessment and no clear alternative is available, the industry is encouraged to use the Best Practices approach as formulated by DfE. Currently, there is a Best Practices approach for both the Automotive Refinishing industry and Spray Polyurethane Foam. [27]
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Category:Sustainable environmental design
Category:Design for X
Category:Industrial ecology
Category:United States Environmental Protection Agency
Design for the Environment Program (DfE) is a United States Environmental Protection Agency (USEPA) program, created in 1992, that works to prevent pollution, and the risk pollution presents to humans and the environment. [1] The EPA DfE program provides information regarding safer electronics, safer flame retardants, safer chemical formulations, as well as best environmental practices. [2] DfE employs a variety of design approaches that attempt to reduce the overall human health and environmental impact of a product, process or service, where impacts are considered across its life cycle. Different software tools have been developed to assist designers in finding optimized products (or processes/services).
The three main goals of DfE are:
Design for the Environment is a global movement targeting design initiatives and incorporating environmental motives to improve product design in order to minimize health and environmental impacts. The Design for the Environment (DfE) strategy aims to improve technology and design tactics to expand the scope of products. By incorporating eco-efficiency into design tactics, DfE takes into consideration the entire life-cycle of the product, while still making products usable but minimizing resource use. The key focus of DfE is to minimize the environmental-economic cost to consumers [4] while still focusing on the life-cycle framework of the product. By balancing both customer requirements as well as environmental and social impacts DfE aims to improve the product use experience both for consumers and producers, while minimally impacting the environment.
In the United States, Design for Environment is an EPA program which works to notify the public of less harmful substitutes to certain products. They do so by labeling environmentally safe products with a DfE label to provide information on safer or alternative products to those which use harmful chemicals.
There are four main concepts that fall under the Design for Environment umbrella. [6]
Life cycle assessment (LCA) is employed to forecast the impacts of different (production) alternatives of the product in question, thus being able to choose the most
environmentally friendly. A life cycle analysis can serve as a tool when determining the environmental impact of a product or process. Proper LCAs can help a designer compare several different products according to several categories, such as
energy use,
toxicity, acidification,
CO2 emissions,
ozone depletion,
resource depletion and many others. By comparing different products, designers can make decisions about which environmental hazard to focus on in order to make the product more environmentally friendly.
[7]
Modern day businesses all aim to produce goods at a low cost while maintaining quality, staying competitive in the global marketplace, and meeting consumer preferences for more environmentally friendly products. To help businesses meet these challenges, EPA encourages businesses to incorporate environmental considerations into the design process. The benefits of incorporating DfE include: cost savings, reduced business and environmental risks, expanded business and market opportunities, and to meet environmental regulations [8] .
Other than these two large brand names there are several other consumer product companies that are are apart of the EPA partnership program this includes:
This is just a short list of examples of some companies that are already designing for the environment. Design for the environment has become increasingly popular in today's industry, particularly in the IT industry and chemical design. By designing for the environment companies can reduce costs through lower energy and material use and recycling and reuse. There are also the benefits of meeting the changing consumer demands for greener company images which is a great incentive for more companies to design for the environment.
A business can design for the environment by [14] :
The design for the environment safer product labeling program aims to protect human health and the environment. DfE works alongside consumers and producers to enhance the safety of a wide assortment of products. The program is important because it only labels products as "DfE" when they have met an environmental standard set by the EPA. According to the EPA website currently over 2,700 products carry the DfE label making it easier for consumers to identify products which utilize safer chemicals in products such as household cleaning supplies. [15] However, cleaning products are only one of many products that are eligible for the label. Other products include septic system treatments and wastewater inoculants, car care products, carpet cleaners, several types of degreasing products, laundry-care products and several others. [16] Furthermore the DfE program works alongside producers to assist them in finding safer substitutes to current chemicals used, and thus helping to minimize the companies environmental impact and human health effects. [17] The procedure for safer product labeling consists of several steps which include selecting materials which will have the lowest environmental and health impacts, reducing the amount of material used, incorporating the " cradle-to-grave" concept of minimizing the impact of production/disposal as well as the impact during use of the product and enhancing the disposal process by using materials which can be recycled, disassembled or that will have a minimum landfill impact [18] .
EPA certified safe products are recognizable by the Design for the Environment (DfE) label. The label helps the consumer identify and choose products that are safer for human health and protect the environment. The DfE logo on a product symbolizes that the DfE scientific review team has screened each ingredient contained in the product for potential human health and environmental effects and have recognized the product as being the safest option for consumers.
Manufacturers who are partners for the Design for the Environment program have the right to display the DfE logo on recognized products. These manufacturers invest in research, development and reformulation, to ensure the ingredients contained in the finished product are safe to humans and protect the environment while maintaing or improving product performance.
Design for the Environment is an EPA program that distinguishes safer chemical products. EPA uses rigorous criteria to ensure that Design for the Environment-labeled products are safe for human health and the environment. The Design for the Environment label makes it easy for purchasers and users to quickly identify safer chemical products that do not sacrifice quality or performance. Design for the Environment has approved more than 2,000 industrial and institutional products. [20]
The EPA has imposed the National Ambient Air Quality Standards (NAAQS) to establish an air quality standard across the U.S. The NAAQS sets standards on six main sources of pollutants, which include emissions of: ozone (0.12 ppm per 1 hour), carbon monoxide (35 ppm per 1 hour), pollutant (primary standards), particulate matter (50g/m^3 at an annual arithmetic mean) , sulfur dioxide (80g/m^3 at an annual arithmetic mean), nitrogen dioxide (100g/m^3 at an annual arithmetic mean), and lead emissions (1.5g/m^3 at an annual arithmetic mean) [21] .
The Stratospheric Ozone Protection is under section 602 of the Clean Air Act of 1990. This regulation aims to decrease emission of chlorofluorocarbons (CFCs) and other chemicals that are destroying the stratospheric ozone layer. The protection initiative categorizes ozone-depleting substances into two classes: Class I, and Class II [22] .
Class I substances include 20 different kinds of chemicals and have all been phased-out of production processes since 2000. Class II substances consist of the 33 different HCFCs. The EPA has already begun plans to decrease emissions in HCFCs and plan to completely phase out the class II substances by 2030 [23] .
A firm operating in the electronics industry in SIC Codes 20-39 that has more than 10 full-time employees and consumes more than 10,000lbs per year of any toxic chemical lists in 40 CFR 372.65 must file a toxic release inventory [24] .
In order to help industries choose safer chemicals for applications, DfE conducts Alternatives Assessments. This program brings together environmental organizations, industry leaders, academia, and others to evaluate the environmental and health impacts of potential alternatives to problematic chemicals. The program uses a variety of approaches to investigate safer chemistries. Life-cycle assessment can be conducted to understand the phases (e.g., production, use, and disposal) where industry can make changes to realize environmental and health benefits. DfE Hazard-based Alternatives Analyses evaluate the hazards posed by chemicals during relevant phases in the product life cycle. These approaches can be applied to identifying safer alternative chemicals for applications that now use priority chemicals of concern. The outcome of an Alternatives Assessments Partnership provides industry with the information they need to choose safer chemicals, as well as avoid unintended consequences of switching to a poorly understood substitute. [26]
DfE's Best Practices approach is designed to enhance the awareness of health and environmental concerns, minimize pollution, and protect workers and communities by promoting the use of safer alternative chemical products and cleaner, more efficient practices. After a chemical ingredient has been reviewed by a DfE Alternatives Assessment and no clear alternative is available, the industry is encouraged to use the Best Practices approach as formulated by DfE. Currently, there is a Best Practices approach for both the Automotive Refinishing industry and Spray Polyurethane Foam. [27]
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Category:Sustainable environmental design
Category:Design for X
Category:Industrial ecology
Category:United States Environmental Protection Agency