Automatic Solar Based Water Heating System Through Convex Lenses

Abstract

In this investigation, convex lenses are used to study the performance and heat transfer analysis of solar grounded water heating systems. The employment of convex lenses, which concentrate solar radiation on the water layers at a single spot, is favored when using diffusible radiation. The tank benefits from receiving sun radiation. The water is possible to absorb high heat from the lens arrays attributable to lenses that are attached over the top and fasten radiations that prompt to the working fluid. In this instance, lenses are used to investigate the properties of heat. This endeavor demonstrates the exploration of the potential usage of a convex lens for a solar-powered water heating system. The objective of this exploratory research is to develop a water heating system using convex lenses that is completely dependent on solar radiation in order to save the electricity, gas, and reactive energy that are utilized by geysers and for other common living uses. When employing diffusible radiation, it is preferred to use convex lenses since they focus solar energy on the water layers at a particular location.