Efficiency in Solar Photovoltaic Systems Under High Temperature Conditions
International Journal of Electrical Components and Energy Conversion
Volume 3, Issue 6, December 2017, Pages: 88-92
Received: Dec. 26, 2017; Accepted: Jan. 10, 2018; Published: Jan. 22, 2018
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Nuru Safarov, Department of Electronics and Telecommunications Engineering, Khazar University, Baku, Azerbaijan
Sevinc Orucova, Department of Medical Physics and Informatics, Azerbaijan Medical University, Baku, Azerbaijan
Gurban Ahmadov, Laboratory of Heterostructures Physics, Institute of Physics of Azerbaijan National Academy of Sciences, Baku, Azerbaijan
Etibar Rzazadeh, Educational Technopark, Odlar Yurdu University, Baku, Azerbaijan
Samira Cafarova, Educational Technopark, Odlar Yurdu University, Baku, Azerbaijan
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Alternative energy sources already today can satisfy human needs for energy. A spectrum of natural sources different from region to region. Intensity sunlight and a wind, existence or absence of water energy, geothermal sources, wood potential, quality soil and quantity of dropping out deposits for cultivation of a biomass influence a choice of that combination in which kinds of renewed energy in this or that country will be combined. From here follows, which energy needs in various regions should be satisfied with various ways.
Solar Energy, Concentrator, Power Factor, Photovoltaic Cells, Temperature, Converter
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Nuru Safarov, Sevinc Orucova, Gurban Ahmadov, Etibar Rzazadeh, Samira Cafarova, Efficiency in Solar Photovoltaic Systems Under High Temperature Conditions, International Journal of Electrical Components and Energy Conversion. Vol. 3, No. 6, 2017, pp. 88-92. doi: 10.11648/j.ijecec.20170306.11
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F. G. Aliev, E. M. Rzazadeh, N. A. Safarov, I. Q. Aliev, N. N. Mursakulov. Basic construction for solar power plants. 10-th Baku Intern. Congress “Energy, Ecology, Economy”, 23-25 September, Baku, 2009, pp. 93-96.
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R. Singh. Economic requirements for new materials for solar photovoltaic cells/ Solar Energy. 1980, v. 24, №6, p. 589-592.
Werner, J. H., Mattheis, J., and Rau, U. (2005) Efficiency limitations of polycrystalline thin film solar cells: case of Cu (In, Ga) Se2. Thin Solid Films, 480/481, 399–409.
R. Swanson, S. Beckwith, R. Crane, W. Eades et all. / Point Contact Concentration Solar Cells – IEEE Electron Devices Letters, Vol. ED-31, No5, May 1984, pp. 661-664.
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