Improving the Efficiency of DASC by Adding CeO2/CUO Hybrid Nanoparticles in Water

Abstract

Solar energy is the abundantly available source of renewable energy with least impact on environment. Direct absorption solar collector (DASC) is the commonly used device to absorb heat directly from sun and make use of it for different heating applications. In the past, many experiments have been done to increase the efficiency of DASC using nanofluids. In this paper, an examination of solar collector efficiency for hybrid CeO2/CuO-water (0.1% by volume) nanofluid under various flow rates and proportions of CeO2/CUO nanoparticles is investigated. The experiments were conducted at flow rates spanning from 20 cc/min to 100 cc/min and with CeO2/CUO nanoparticles proportions of 1:0, 1:0.5, 1:1, 0.5:1, and 0:1. The efficiency increases from 16.5% to 51.6% when the flow rate is increased from 20 cc/min to 100 cc/min for hybrid CeO2/CuO(1:1)-water nanofluid. The results also showed an increase in efficiency of 13.8, 18.1, 24.3, 24.9 and 26.1% with hybrid combination of CeO2/CUO at ratios 1:0, 1:0.5, 1:1, 0.5:1, and 0:1 respectively in comparison with water at a flow rate of 100 cc/min.