Title :
Accuracy of Energy Prediction Methodologies
Author :
Williams, S.R. ; Betts, T.R. ; Gottschalg, R. ; Infield, D.G. ; de Moor, H. ; van der Borg, N. ; Burgers, A.R. ; Friesen, G. ; Chianese, D. ; De Montgareuil, A. Guerin ; Zdanowicz, T. ; Stellbogen, D. ; Herrmann, W.
Author_Institution :
Centre for Renewable Energy Syst. Technol., Loughborough Univ.
Abstract :
In the current market, the specific annual energy yield (kWh/kWp) of a PV system is gaining in importance due to its direct link to the financial returns for possible investors who typically demand an accuracy of 5% in this prediction. This paper focuses on the energy prediction of photovoltaic modules themselves, as there have been significant advances achieved with module technologies which affect the device physics in a way that might force the revisiting of device modelling. The paper reports the results of a round robin based evaluation of European modelling methodologies. The results indicate that the error in predicting energy yield for the same module at different locations was within 5% for most of the methodologies. However, this error increased significantly if the nominal nameplate rating is used in the characterization stage. For similar modules at the same location the uncertainties were much larger due to module-module variations
Keywords :
photovoltaic power systems; power system simulation; semiconductor device models; solar cells; PV system; device modelling; energy prediction methodologies; module-module variations; nominal nameplate rating; photovoltaic modules; round robin based evaluation; specific annual energy yield; Accuracy; Crystallization; Meteorology; Photovoltaic systems; Physics; Predictive models; Renewable energy resources; Round robin; Solar power generation; Testing;
Conference_Titel :
Photovoltaic Energy Conversion, Conference Record of the 2006 IEEE 4th World Conference on
Conference_Location :
Waikoloa, HI
Print_ISBN :
1-4244-0016-3
Electronic_ISBN :
1-4244-0017-1
DOI :
10.1109/WCPEC.2006.279946
