Volume 2, Issue 2, December 2018, Page: 27-30
The Importance of Use of Solar Energy
Tulakov Jahongir Turakul Uglu, Department of Solar Energy Concentrator Elektroenergetics, Djizak Polytechnic Institute, Djizak, Uzbekistan
Received: Nov. 19, 2018;       Accepted: Dec. 5, 2018;       Published: Jan. 14, 2019
DOI: 10.11648/j.ajece.20180202.13      View  713      Downloads  172
Nowadays, much attention is paid to the usage of solar energy. Solar energy, in addition to traditional energy, is ecologically clean while changing. Today, the demand for electricity and thermal energy is becoming increasingly urgent all over the world. This can be explained by the fact that researchers can reduce the burden of traditional energy resources (oil, coal, gas), increase their cost, ecological disturbances, and so on. Therefore, one of the key issues is to build solar panels that are economical and practical in their application. This requires the development of existing equipment and the research of modern variants of various constructive schemes.
Toxic Gasses, Oxygen, Ozone, Nitrogen, Carbon Dioxide, Solar Energy, Constructive Schemes
To cite this article
Tulakov Jahongir Turakul Uglu, The Importance of Use of Solar Energy, American Journal of Electrical and Computer Engineering. Vol. 2, No. 2, 2018, pp. 27-30. doi: 10.11648/j.ajece.20180202.13
Copyright © 2018 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
A. A. Abdurakhmanov. Development of solar autonomous high-temperature power plants for the generation of electrical, thermal energy with a capacity of 5-20 kW.” Dr. Sc. A. A. Abdurakhmanov.
Aparisi P. P., Teplyakov D. I. Solar ovens. Proceedings of the scientific and technical conference on solar technology. Yerevan, 1959.
I. Karimov. "Ways and Measures to Become a Global Financial Crisis." Uzbekistan, T.: 2009.
Agadzhanov B. C., Yarina V. Z. Automatic electric and tracking systems. M. 1974.
Byers T. 20 designs with solar cells. M. Mir, 1988.
Bayramov R. Toiliev KT, Ashirbaev M. Thermal regime of a solar house with passive thermoelements. Izv. AN RTADJ. Ser. FTH and GN. 1981. №1.
Vasiliev D. V., Filippov G. S. Fundamentals of the theory and calculation of tracking systems. M :, JL: Gosenergoizdat, 1959.
Gardner, M. F., Burns JL. Transients in linear systems M .: Gostekhizdat, 1949.
Garf B. A. The mechanism of rotation of mobile solar installations // Use of solar energy. Issue 1. M .: Publishing House of the Academy of Sciences, 1957. S. 62-84.
Duffy J. A., Beckman W. A. Thermal processes using solar energy. M .: Mir, 1977.
Dynamics and energy characteristics of servo drives of intermittent control. / Ed. Kistika S. V. Works MAI. Issue 217. M., 1971.
Zhimerin D. G. Energy present and future. M .: Knowledge, 1978.-189 p.
Zahidov R. A. Technology and testing of solar concentrating systems. Tashkent. FAN, 1978.
Ivakhnenko A. G. Connection of the theory of invariance with the theory of differential regulators. /Automation. 1961. №1.
Ivashchenko N. A. Automatic res1ulirovanie. M .: Mechanical Engineering, 1973.
Glenn Meyers "Concentrated solar power. About solar concentrator technology" 2016.
Warren Morningstar. "The Physics of Solar Concentration" December 18, 2017.
Bubenchikov A. A., Nurakhmet E. E., Molodykh V. O., Rudenok A. I. Solar energy as a source of electrical energy. 2016.
Browse journals by subject