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TECHNICS
Improvement of the energy efficiency of the photovoltaic thermoelectric battery
A. K. Esman, G. L. Zykov, V. A. Potachits Belarusian National Technical University, Minsk
Abstract:
The paper considers one of the original solutions of the photovoltaic thermoelectric battery, which was implemented in the
COMSOL Multiphysics software environment. Furthermore, the diurnal and seasonal variations of the ambient temperature and
the effects of the concentrated solar radiation were taken into account. The temperature patterns in the different sections of the
battery as well as the temperature gradient patterns inside the thermoelectric converters are calculated. It is shown that the increasing of the output voltage up to maximum values of 0,635 and 0,78 V in January and July, respectively, was achieved due
to the temperature stabilization of the back side of the external electrodes.
Keywords:
numerical simulation, COMSOL Multiphysics, photo- and thermoelectric converters, concentrated solar radiation,
temperature gradient, output voltage.
Received: 14.09.2021
Citation:
A. K. Esman, G. L. Zykov, V. A. Potachits, “Improvement of the energy efficiency of the photovoltaic thermoelectric battery”, PFMT, 2021, no. 3(48), 82–87
Linking options:
https://www.mathnet.ru/eng/pfmt799 https://www.mathnet.ru/eng/pfmt/y2021/i3/p82
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Statistics & downloads: |
Abstract page: | 74 | Full-text PDF : | 39 | References: | 24 |
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