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Cost-Benefit Analysis of Residential Energy-Efficiency Upgrades in Phoenix, Arizona |
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| Authors: | Kenneth D. Walsh Howard H. Bashford Malini Anand |
| Affiliation: | 1Associate Professor, AGC-Paul S. Roel Chair of Construction Engineering and Management, Dept. of Civil and Environmental Engineering, San Diego State Univ., Mail Code 1324, San Diego, CA?92182. 2Associate Professor, Del E. Webb School of Construction, Arizona State Univ., Tempe, AZ?85287-0204. 3Graduate Student, Manchester Business School, Univ. of Manchester, Oxford Rd., Manchester?M13?9PL, U.K. |
| Abstract: | With worldwide energy consumption rising, there is a need to reduce energy use of the housing stock. While this general idea is well-known, there is an overwhelming amount of product data and manufacturers claims through which the homebuilder or designer must sort to make informed selections of energy-efficient upgrades. The main objective of this research was to identify cost effective–energy efficient upgrades from a group of 16 commonly available choices, and rank them according to the most beneficial for the least cost. This study was conducted in Phoenix, Arizona, and included a sample of 30 production-style homes typical of the Phoenix metropolitan area. Energy-simulation software was used to perform energy evaluations and derive the benefits of each upgrade. The cost of each upgrade was obtained from a database of national average costs and from a local context. Differences in the selection of beneficial upgrades vary dramatically with the source of the cost information. This research provides a generic methodology that can be used by builders and designers to select appropriate energy-efficient upgrades for a given geographic area that will provide high operating benefits relative to the amount of capital investment. |
| Keywords: | Benefit cost ratios Arizona Energy consumption Residential locations |