An Approach for Predicting Social, Environmental, and Economic Product Impacts and Characterizing the Associated Sustainability Tradespace in Engineering Design
There is a growing demand for sustainable products and systems. Sustainability encompasses environmental, social, and economic aspects, often referred to as the three pillars of sustainability. To make more sustainable design decisions, engineers need tools to predict the environmental, social, and...
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Veröffentlicht in: | Journal of mechanical design (1990) 2024-02, Vol.146 (2) |
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container_title | Journal of mechanical design (1990) |
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creator | Mabey, Christopher S. Dickerson, Tevin J. Salmon, John L. Mattson, Christopher A. |
description | There is a growing demand for sustainable products and systems. Sustainability encompasses environmental, social, and economic aspects, often referred to as the three pillars of sustainability. To make more sustainable design decisions, engineers need tools to predict the environmental, social, and economic impacts of products and characterize potential sustainability tradeoffs. To predict the total impact of a product, the quantity of functional units of the product in society and the impact of each product needs to be estimated. This article uses agent-based modeling (ABM), combined with tools such as life cycle assessment (LCA), to predict impacts across all three pillars of sustainability. By using the product impact results, the multidimensional sustainability tradespace can be characterized. The approach described in this article is based on three main components for the predictive modeling of product impacts and the characterization of the sustainability trade space: (i) ABM of product adoption, (ii) the assessment of product impacts, and (iii) an approach for the characterization of product sustainability tradeoffs at the population level. The tradespace characterization uses a Pareto-based method presented visually to find the nondominated solutions in the product impact space. To illustrate and describe how to use the method, a case study is presented that predicts the impact of residential solar panels in a region of the United States under various scenarios. The findings of the case study can help policy makers understand suitable implementation strategies for residential solar panels while considering the impact tradeoffs involved. |
doi_str_mv | 10.1115/1.4064041 |
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Sustainability encompasses environmental, social, and economic aspects, often referred to as the three pillars of sustainability. To make more sustainable design decisions, engineers need tools to predict the environmental, social, and economic impacts of products and characterize potential sustainability tradeoffs. To predict the total impact of a product, the quantity of functional units of the product in society and the impact of each product needs to be estimated. This article uses agent-based modeling (ABM), combined with tools such as life cycle assessment (LCA), to predict impacts across all three pillars of sustainability. By using the product impact results, the multidimensional sustainability tradespace can be characterized. The approach described in this article is based on three main components for the predictive modeling of product impacts and the characterization of the sustainability trade space: (i) ABM of product adoption, (ii) the assessment of product impacts, and (iii) an approach for the characterization of product sustainability tradeoffs at the population level. The tradespace characterization uses a Pareto-based method presented visually to find the nondominated solutions in the product impact space. To illustrate and describe how to use the method, a case study is presented that predicts the impact of residential solar panels in a region of the United States under various scenarios. 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Mech. Des</addtitle><description>There is a growing demand for sustainable products and systems. Sustainability encompasses environmental, social, and economic aspects, often referred to as the three pillars of sustainability. To make more sustainable design decisions, engineers need tools to predict the environmental, social, and economic impacts of products and characterize potential sustainability tradeoffs. To predict the total impact of a product, the quantity of functional units of the product in society and the impact of each product needs to be estimated. This article uses agent-based modeling (ABM), combined with tools such as life cycle assessment (LCA), to predict impacts across all three pillars of sustainability. By using the product impact results, the multidimensional sustainability tradespace can be characterized. The approach described in this article is based on three main components for the predictive modeling of product impacts and the characterization of the sustainability trade space: (i) ABM of product adoption, (ii) the assessment of product impacts, and (iii) an approach for the characterization of product sustainability tradeoffs at the population level. The tradespace characterization uses a Pareto-based method presented visually to find the nondominated solutions in the product impact space. To illustrate and describe how to use the method, a case study is presented that predicts the impact of residential solar panels in a region of the United States under various scenarios. 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Mech. Des</stitle><date>2024-02-01</date><risdate>2024</risdate><volume>146</volume><issue>2</issue><issn>1050-0472</issn><eissn>1528-9001</eissn><abstract>There is a growing demand for sustainable products and systems. Sustainability encompasses environmental, social, and economic aspects, often referred to as the three pillars of sustainability. To make more sustainable design decisions, engineers need tools to predict the environmental, social, and economic impacts of products and characterize potential sustainability tradeoffs. To predict the total impact of a product, the quantity of functional units of the product in society and the impact of each product needs to be estimated. This article uses agent-based modeling (ABM), combined with tools such as life cycle assessment (LCA), to predict impacts across all three pillars of sustainability. By using the product impact results, the multidimensional sustainability tradespace can be characterized. The approach described in this article is based on three main components for the predictive modeling of product impacts and the characterization of the sustainability trade space: (i) ABM of product adoption, (ii) the assessment of product impacts, and (iii) an approach for the characterization of product sustainability tradeoffs at the population level. The tradespace characterization uses a Pareto-based method presented visually to find the nondominated solutions in the product impact space. To illustrate and describe how to use the method, a case study is presented that predicts the impact of residential solar panels in a region of the United States under various scenarios. The findings of the case study can help policy makers understand suitable implementation strategies for residential solar panels while considering the impact tradeoffs involved.</abstract><pub>ASME</pub><doi>10.1115/1.4064041</doi></addata></record> |
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title | An Approach for Predicting Social, Environmental, and Economic Product Impacts and Characterizing the Associated Sustainability Tradespace in Engineering Design |
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