Design modification of elliptical vessel solar receiver by response surface methodology

Aka CC *, Onah TO and Egwuagu OM

Department of Mechanical and Production Engineering, Enugu State University of Science and Technology Enugu, Enugu, Nigeria.
 
Research Article
Global Journal of Engineering and Technology Advances, 2024, 19(01), 129–142.
Article DOI: 10.30574/gjeta.2024.19.1.0064
Publication history: 
Received on 01 March 2024; revised on 10 April 2024; accepted on 13 April 2024
 
Abstract: 
Design modification of elliptical vessel solar receiver system by response surface methodology has been carried out. The materials used in this study were locally sourced from Kenyeta Market Enugu, Onitsha Bridge Head Market, and Idumota Market Lagos. These materials were sourced based on categories of components element: support mechanisms made of mild steel plates, bolts, nuts, clamps, and water as heat transfer fluid. The reflector is made of aluminum foil tape while the vessel has a glass cover fitted with bolts and nuts, the receiver is made of copper pipe, aluminum pipe, galvanized iron pipes, and stainless steel pipes. The pipes were fitted into the vessel with chlorinated polyvinyl chloride 3⁄4 joint pipes, and journal-bearing mechanisms. Other features include the tracking system made of light dependent resistance sensors, a direct current motor, a pulley, a belt, an Arduino controller, and a thermal energy storage tank. The lagging material was an expanded Polyethylene sheet. Experimental data were measured with thermocouples, a digital panel, a Uni-T digital anemometer (UT363), and a digital solar power meter (SM206-SOLAR). Matrix Experimental design was used to develop an experimental model for the system. The developed system was tested to investigate the effect of various heat collectors with and without coating on its performance. It was established from the response optimization that the intercept factor was improved by 32.2%. Similarly, the theoretical efficiency was improved by 8.19% while the experimental thermal efficiency was improved by 6.99%.
 
Keywords: 
Solar; Receiver; Elliptical; Optimization; Intercept-factor
 
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