Solar energy aggregation technology using Fresnel glass is an effective way of employing solar energy on account of its thin, lightweight creation that are available in different sizes, accompanying excellent light absorbing capability for a variety of requests. Concentrated photovoltaics is a major application and the maximal solar-to-electric change efficiency, the Fresnel lens are stated about 30% higher efficiency. An attempt has happened made to state the benefits of the use of Fresnel Collectors in concentrating solar power. The work intentional about PV cells that are used accompanying a lens arrangement method inbetween them, and for heat decline a cooling system is too attached to maximize the effectiveness. By using Fresnel lens, the manufacturing of PV cell maybe maximized and the cost can be minimized. Here it is erect that, with low cost of organizing the system can obtained the capacity output 2-2.35 times above normal PV committee system, i.e. the cost maybe reduced in half or capacity output can be increase double or greater for a likely cost. The maximum performance from this system is about 62.7% increases that is quite acceptable. Although the present application scale is limited, the ongoing research and development everything suggest that Fresnel glass solar concentrators can be a alternative method with higher adeptness than conventional type system. It will influence a breakthrough of monetary solar energy concentration use technology in the near future. The adeptness of solar systems, specifically photovoltaic panels, is generally depressed based on temperature and the harvest of the P.V. module is adversely overwhelmed by their surface rise in temperature. This increase is associated with the engrossed sunlight that is convinced into heat, resulting in lowered power output, strength efficiency, performance and existence of the panel. The use of cooling methods can offer a potential solution to prevent excessive heating of P.V. panels and to lower cell temperature.
Author(s) Details:
Ch. Indira Priyadarsini,
Mechanical
Department, Chaitanya Bharathi Institute of Technology, Osman Sagar Rd,
Kokapet, Gandipet, Telangana 500075, India.
P.
Anjani Devi,
Mechanical
Department, Chaitanya Bharathi Institute of Technology, Osman Sagar Rd,
Kokapet, Gandipet, Telangana 500075, India.
R. P. Chowdary,
Mechanical Department, Chaitanya Bharathi Institute of Technology,
Osman Sagar Rd, Kokapet, Gandipet, Telangana 500075, India.
R. Navaneetha,
Mechanical Department, Chaitanya Bharathi Institute of Technology,
Osman Sagar Rd, Kokapet, Gandipet, Telangana 500075, India.
Please see the link here: https://stm.bookpi.org/RHST-V8/article/view/11542
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