Application of Life Cycle Energy Analysis to Photovoltaic Module Design

CSS Publication Number: 
CSS97-07
Abstract: 

This paper highlights results from a collaborative life-cycle design project between the University of Michigan, the US Environemtal Protection Agency and United Solar Systems Corporation. Energy analysis is a critical planning and design tool for photovoltaic (PV) modules. A set of model equations  for evaluating the life-cycle energy performance of PV systems and other electricity-generating systems are presented. The total PV life-cycle, encompassing material production, manufacturiong and assembly, use and end-of-life management, was investigated.

Three metrics -energy payback time, electricity production efficiency and life-cycle conversion efficiency- were defined for PV modules with and without balance-of-system (BOS) components. These metrics were evaluated for a United Solar UPM-880 amorphous silicon PV module based on average insolation in Detroit, Boulder, and Phoenix. Based on these metrics, a minimum condition for assessing the susteainbility of electricity-generating systems was proposed and discussed. The life-cycle energy analysis indicated that the aluminum frame is responsible for a significant fraction of the energy invested in the UPM-880 module.

Publication Type: 
Journal Article
Progress in Photovoltaics Research and Applications
Date Published: 
July/August 1997
Persistent URL: 
doi: 10.1002/(SICI)1099-159X(199707/08)5:4<287::AID-PIP169>3.0.CO;2-S
Full Citation: 
Keoleian, G.A. and G.M. Lewis. 1997. Application of Life Cycle Energy Analysis to Photovoltaic Module Design. Progress in Photovoltaics Research and Application 5(4): 287-300.
Admin Content
Publication Status: 
Published