A Design Optimization Framework to Estimate Environmental Impact of Design Decisions in Consumer Products
Document Type
Article
Publication Date
Spring 2009
Abstract
Most products have the potential to negatively impact the environment during all life-cycle stages. However, most environmental impact assessment methods focus on a single product life-cycle and on a specific life-cycle stage. Product design plays a significant role by determining traditional environmental impacts, such as embodied energy of materials, but also by influencing market adoption and production volumes. The main objective of this work is to develop a design optimization framework that estimates the environmental impact of design decisions (e.g. materials choice, etc.) across all life-cycle stages in consumer products. The methodology relies on quality function deployment (QFD), multi-attribute utility theory, non-linear mathematical programming, and life-cycle assessment tools to estimate the utility of the design options to the customer, the producer, and the environment. The proposed framework allows designers and other decision makers to select options that are environmentally sound and also aligned with the business objectives.
Publication Title
Journal of Green Building
Repository Citation
Briceno, Carlos M.; Carrano, Andres L.; Thorn, Brian K.; and Esterman, Marcos Jr., "A Design Optimization Framework to Estimate Environmental Impact of Design Decisions in Consumer Products" (2009). Engineering Faculty Publications. 261.
https://digitalcommons.fairfield.edu/engineering-facultypubs/261
Published Citation
Briceño, Carlos M., Andres L. Carrano, Brian K. Thorn, and Marcos Esterman Jr. "A design optimization framework to estimate environmental impact of design decisions in consumer products." Journal of Green Building 4, no. 2 (2009): 141-149. doi: 10.3992/jgb.4.2.141
DOI
10.3992/jgb.4.2.141
Peer Reviewed
Comments
© 2009 College Publishing
A link to freely available content has been provided.