Experimental and economic analysis of passive cooling PV module using fins and planar reflector

This study aims to experimentally investigate the passive cooling performance of a concentrated PV module, using two different designs of novel passive fin heat sinks namely, lapping and longitudinal. Design of Experiment (DOE) approach technique was employed to identify the optimum design parameters in terms of fin height, fin pitch, fin thickness, number of fins and tilt angle. The experimental work was carried out under real environmental conditions at optimum design parameters of the passive fin heat sinks. At average solar irradiance of 1000 W/m2 and ambient temperature of 33 degrees C, results showed that, passive cooling with lapping fins demonstrate the best performance with mean PV module temperature 24.6 degrees C lower than the reference PV module, and hence, the achieved electrical efficiency and power output are as high as 10.68% and 37.1 W, respectively. Finally, Life Cycle Cost Analysis (LCCA) was conducted. The analysis showed that the payback period for PV module with longitudinal, lapping fins and bare PV module are 4.2, 5 and 8.4 years respectively. Therefore, PV module cooling using passive technique particularly with lapping fins design is concluded as the preferred option.

Automated summary

This study experimentally investigated the passive cooling performance of a concentrated PV module, showing that passive cooling with lapping fins design is the preferred option for reducing PV module temperature and increasing electrical efficiency and power output. Life Cycle Cost Analysis revealed that the payback period for PV module with lapping fins design is the shortest among the options considered.