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Materials and Methods of Thermal Energy Storage in Power Supply Systems

Materials and Methods of Thermal Energy Storage in Power Supply Systems

Baba Dzhabrailovich Babaev, Valeriy Kharchenko, Vladimir Panchenko, Pandian Vasant
Copyright: © 2019 |Pages: 21
ISBN13: 9781522591795|ISBN10: 1522591796|ISBN13 Softcover: 9781522591801|EISBN13: 9781522591818
DOI: 10.4018/978-1-5225-9179-5.ch005
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MLA

Babaev, Baba Dzhabrailovich, et al. "Materials and Methods of Thermal Energy Storage in Power Supply Systems." Renewable Energy and Power Supply Challenges for Rural Regions, edited by Valeriy Kharchenko and Pandian Vasant, IGI Global, 2019, pp. 115-135. https://doi.org/10.4018/978-1-5225-9179-5.ch005

APA

Babaev, B. D., Kharchenko, V., Panchenko, V., & Vasant, P. (2019). Materials and Methods of Thermal Energy Storage in Power Supply Systems. In V. Kharchenko & P. Vasant (Eds.), Renewable Energy and Power Supply Challenges for Rural Regions (pp. 115-135). IGI Global. https://doi.org/10.4018/978-1-5225-9179-5.ch005

Chicago

Babaev, Baba Dzhabrailovich, et al. "Materials and Methods of Thermal Energy Storage in Power Supply Systems." In Renewable Energy and Power Supply Challenges for Rural Regions, edited by Valeriy Kharchenko and Pandian Vasant, 115-135. Hershey, PA: IGI Global, 2019. https://doi.org/10.4018/978-1-5225-9179-5.ch005

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Abstract

The chapter considers the factors that affect the incomplete use of power. The analysis and systematization of accumulating systems on the types of accumulated energy, on the processes occurring during storage, types of devices and types of generated energy is performed. Each of the possible ways of accumulating energy is analyzed in detail. Various variants of conformity of schedules of change of a consumed load within a year and a total resource of solar radiation are considered. The analysis of the parameters of heat-accumulating materials and their classification depending on the material class, the way of heat accumulation and return, on the cyclicity of work, etc. are provided. It is shown that the level of temperature, the scale of the storage unit, and the necessary duration of heat storage determine the requirements for the construction of batteries and the choice of heat-storage substances. The prospects of research on the search for new ways of accumulating energy and technical means for their implementation are considered.

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