Effect of seasonal spectral variations on performance of three different photovoltaic technologies in India D.B. Magare O.S. Sastry Rajesh Gupta Tom Betts Ralph Gottschalg A. Kumar B. Bora Y.K. Singh 2134/20626 https://repository.lboro.ac.uk/articles/journal_contribution/Effect_of_seasonal_spectral_variations_on_performance_of_three_different_photovoltaic_technologies_in_India/9569822 The accuracy of outdoor performance of a photovoltaic (PV) array can be improved by considering the spectral effects. In this paper, the impact of seasonal spectral variations on the three different silicon PV technologies: single junction amorphous silicon (a-Si), Hetero-junction with Intrinsic Thin-layer (HIT) and multi crystalline silicon (mc-Si) has been presented first time in Indian environmental conditions. The spectral effect on HIT PV module technology has been presented first time along with the first simultaneous study of variation in spectral indicators by useful fraction (UF), average photon energy (APE) and spectral mismatch factor (MMF), based on monthly and seasonal data. The maximum observed variation in UF was 26.4, 8.2, 10.8 %, while in MMF, variation was up to 24.7, 7.6, 8.2 % for a-Si, HIT and mc-Si, respectively, and in APE variation was up to 15.3 %. Among all three technology modules, first time reported HIT technology showed the least variation while maximum variation was observed in a-Si technology. The observed spectral effect variations have been discussed on Performance Ratio and compared with reported results of other global sites. The value and trends of spectral parameters are important to understand the effect of spectral variation on different technology. This study is especially important in Indian subcontinent perspective because of the strong monsoon season, where observed variation in the spectrum-related parameter found to be highest among all the seasons. 2016-03-18 11:09:28 Photovoltaics Spectral variation Average photon energy Useful fraction Mismatch factor Performance ratio Mechanical Engineering not elsewhere classified