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Publication Citation: Comparison of Photovoltaic Module Performance Measurements

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Author(s): Arthur H. Fanney; Mark W. Davis; Brian P. Dougherty; D L. King; W E. Boyson; J A. Kratochvil;
Title: Comparison of Photovoltaic Module Performance Measurements
Published: May 02, 2006
Abstract: Computer simulation tools used to predict the energy production of photovoltaic systems are needed in order to make informed economic decisions. These tools require input parameters that characterize module performance under various operational and environmental conditions. Depending upon the complexity of the simulation model, the required input parameters can vary from the limited information found on labels affixed to photovoltaic modules to an extensive set of parameters. The required input parameters are normally obtained indoors using a solar simulator or flash tester, or measured outdoors under natural sunlight.This paper compares measured performance parameters for three photovoltaic modules tested outdoors at the National Institute of Standards and Technology (NIST) and Sandia National Laboratories (SNL). Two of the three modules were custom fabricated using monocrystalline and silicon film cells. The third, a commercially available module, utilized triple-junction amorphous cells. The resulting data allows a comparison to be made between performance parameters measured at two laboratories with differing geographical locations and apparatus. This paper describes the apparatus used to collect the experimental data, test procedures utilized, and resulting performance parameters for each of the three modules. Using a computer simulation model, the impact that differences in measured parameters have on predicted energy production is quantified.Data presented for each module includes power output at standard rating conditions and the influence of incident angle, air mass, and module temperature on each module s electrical performance.Measurements from the two laboratories are in excellent agreement. The power at standard rating conditions is within 1 percent for all three modules. Although the magnitude of the individual temperature coefficients varied as much as 17 percent between the two laboratories, the impact on predicted performance at various temperature levels was minimal, less than 2 percent. The influence of air mass on the performance of the three modules measured at the laboratories was in excellent agreement. The largest difference in measured results between the two laboratories was noted in the response of the panels to incident angles that exceed 75 degrees
Citation: ASME Journal of Solar Energy Engineering
Volume: 128
Issue: May 2006
Pages: pp. 152 - 159
Keywords: comparison;computer simulation tools;measured parameters;performance measurements;photovaltaic module;solar tracking facility
Research Areas: High Performance Buildings
PDF version: PDF Document Click here to retrieve PDF version of paper (1MB)