Sample Solar Concentrators

Yuldash Sobirov; Sharif Kholov; Sirozhiddin Makhmudov; Nilufar Qarshiyeva

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ISSN: 2637-4579

Open Access Journal of Biomedical Engineering and Biosciences

Research Article(ISSN: 2637-4579)

Sample Solar Concentrators

Volume 3 - Issue 4

**Yuldash Sobirov^1,4*, Sharif Kholov², Sirozhiddin Makhmudov³ and Nilufar Qarshiyeva⁴**

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- ¹Laboratory of Big Solar Installations, Institute of Materials Science Scientific Production Association “Physics-Sun” Academy of Sciences Republic of Uzbekistan, Uzbekistan
- ²Junior Researcher, Institute of Materials Science Scientific Production Association “Physics-Sun” Academy of Sciences Republic of Uzbekistan, Uzbekistan
- ³Doctoral student of Tashkent State Technical University named after Islam Karimov, Uzbekistan
- ⁴Deportment of Alternative Energy Sources, Tashkent State Technical University named after Islam Karimov, Uzbekistan
*Corresponding author: Yuldash Sobirov, Deportment of Alternative Energy Sources, Laboratory of Big Solar Installations, Institute of Materials Science Scientific Production Association “Physics-Sun” Academy of Sciences Republic of Uzbekistan, Parkent, Uzbekistan

Received: September 12, 2019; Published: September 19, 2019

DOI: 10.32474/OAJBEB.2019.03.000166

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Abstract

This paper presents the experience in the development, creation and operation of solar concentrating plants for the exploitation of people in rural areas. Attention is provided by the state for the development of solar energy in Uzbekistan. The analysis of the effectiveness of the work of solar kitchens of various types in the conditions of Uzbekistan. The paper discusses the beneficial effects of these facilities to the environment, the conservation of non-renewable energy sources: coal, oil, gas. And also shows the results of measuring the energy characteristics, shows the temperature distribution on the visible surface of the kettle located in the fox chamber. At the same time, the remote method of measuring the temperature field using an FLIR E 8 infrared camera, which allows you to take a multispectral image (MSX) with a resolution of 76800 (320 x 240) pixels, is used to easily interpret the image, adding features of the visual spectrum in the infrared range.

Keywords: Paraboloid Concentrator; Radiant Flux; Solar Kitchen; Thermal Imager; Temperature Field; Mirror Surface

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