Parameter extraction and performance evaluation of glazed PVT module for Indian climatic conditions based on soft computing technique

Abstract

The work is carried out in two ways; one is the overall exergy efficiency of glazed photovoltaic thermal (PVT) module which is optimized with soft computing technique. Evolutionary algorithm is used as a computing techniques in this work. The overall exergy efficiency is considered as the objective function while the optimization is carried out. Secondly, the annual performance of optimized (different parameter like the depth and length of the channel, thickness of tedlar etc.) glazed PVT module has been evaluated. This evaluation has been carried out in four different cities of India (New Delhi, Srinagar, Jodhpur and Bangalore). Here the four weather conditions have been considered like-sClear days, Hazy Days, Hazy and cloudy days and Cloudy days. Overall exergy efficiency for New Delhi, Bangalore, Srinagar and Jodhpur has been observed for a year, for each weather condition. There are improvements in overall annual exergy efficiency, annual thermal gain and annual exergy gain of the proposed glazed PVT module for New Delhi, Jodhpur, Srinagar and Bangalore and the range of improvement in monthly overall exergy efficiency is 5.8 % to 14.70 % than the model given in literature.