Simulation of Photovoltaic Thermoelectric Battery Characteristics

Есман, А. К.; Зыков, Г. Л.; Potachits, V. A.; Кулешов, В. К.

doi:10.21122/1029-7448-2021-64-3-250-258

Izv. vysh. ucheb

2021

DOI: 10.21122/1029-7448-2021-64-3-250-258

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Simulation of Photovoltaic Thermoelectric Battery Characteristics

А. К. Есман

Г. Л. Зыков

V. A. Potachits

et al.

Abstract: Solar radiation is an environmentally friendly and affordable energy source with high release of energy. The use of a photovoltaic thermoelectric battery makes it possible to increase the efficiency of converting solar and thermal radiation into electrical energy, both on serene and cloudy days. An original battery structure with photovoltaic and thermoelectric converters is proposed. The 3D model of the proposed photovoltaic thermoelectric battery was realized in the COMSOL Multiphysics software environment w… Show more

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Cited by 2 publications

References 12 publications

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Simulation of Vertical Thin-Film Solar Battery under Exposure of Concentrated Solar Radiation

Esman,

Zykov,

Potachits

et al. 2024

Izv. vysh. ucheb

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Solar energy is one of the most important and promising energy sectors in the world. Batteries that convert sunlight into electrical energy could become a replacement for traditional carbon-based energy sources. Vertical thin-film solar batteries are one of the new approaches to solar energy generation. The vertical configuration of solar panels provides maximum absorption of sunlight throughout the day. This orientation allows the batteries to capture solar energy even at low angles of incidence of the sun’s rays, which prolongs their operating time and improves the efficiency of electricity production. In this work, the authors proposed a three-dimensional model of a vertically oriented solar battery, as well as they calculated and evaluated the temperature characteristics and the efficiency obtained under conditions of changing ambient temperature. Herewith the power densities of concentrated solar radiation with maximum values from 1 to 10 kW/m2 were varied. The distribution of the maximum values of the surface temperature of the solar battery has been studied. Also, the dependences of the maximum values of the solar battery temperature and the temperature gradient inside it, as well as the dependences of the minimum and maximum values of the heat flux from the solar battery surface on the time of day in the middle of January and July have been studied and plotted. As the calculations have shown, the maximum values of the temperature gradient inside the solar battery in January are ~47–50 % higher than in July. The potential difference, generated by the battery, reaches its maximum values from 11 a.m. to 4 p.m. both in January and July. The use of vertical thin-film solar batteries will improve the power generation efficiency and lower operating costs by reducing the influence of dust, rain and snow.

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Simulation of Vertical Thin-Film Solar Battery under Exposure of Concentrated Solar Radiation

Esman,

Zykov,

Potachits

et al. 2024

Izv. vysh. ucheb

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Study of Vertically Oriented Solar Battery by Exposure of Concentrated Solar Radiation

Esman,

Zykov,

Potachits

et al. 2023

Nauka teh.

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Solar power is one of the largest sectors of the global electric and heat power industry. In search of new energy sources, scientists and engineers around the world are increasingly turning their attention to solar batteries, which can be a suitable replacement for non-renewable energy sources. Vertically oriented solar batteries will generate electricity throughout the daylight hours, which eliminates use of additional equipment. The paper proposes a 3D model of a solar battery with a vertical orientation of its modules, as well as the calculation and evaluation of temperature characteristics and the range of efficiency variations obtained under conditions of both the diurnal and seasonal changes in ambient temperature, and the power density changes of concentrated solar radiation, the maximum values of which were chosen equal to 1; 5 and 10 kW/m2. The dependences of the maximum values of the solar battery temperature and the temperature gradient inside it, as well as the dependences of the minimum, average and maximum values of the radiative heat flux to the solar battery surface in the presence and absence of temperature stabilization of the heat sink backside versus the time of day in the middle of January and July have been plotted. As calculations have shown, at the solar radiation concentration of 10 kW/m2, the efficiency in July is increased by more than 2 times due to the use of thermoelectric converters in the battery. Moreover, according to the obtained results, when the solar modules are oriented vertically, temperature gradients and, consequently, the total efficiency of the solar battery and power generation time will be greater compared to the horizontal position of the solar modules, which will reduce operational costs.

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Simulation of Photovoltaic Thermoelectric Battery Characteristics

Cited by 2 publications

References 12 publications

Simulation of Vertical Thin-Film Solar Battery under Exposure of Concentrated Solar Radiation

Simulation of Vertical Thin-Film Solar Battery under Exposure of Concentrated Solar Radiation

Study of Vertically Oriented Solar Battery by Exposure of Concentrated Solar Radiation

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