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Research Article | Open Access

Thermoelectric Generators (TEGs) modules—Optimum electrical configurations and performance determination

Nganyang Paul Bayendang1( )Mohamed Tariq Kahn2Vipin Balyan3
Department of Electrical, Electronic and Computer Engineering (DEECE), Cape Peninsula University of Technology, Cape Town, WC, RSA
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Abstract

Renewable energy technologies such as solar, thermal, wind, hydro, bio-fuels, fuel cells etc. are becoming trendy and being commissioned in large-scales, due to their environmental friendliness and energy sustainability. This manuscript focuses on alternative energy based-on thermoelectricity, particularly thermoelectric generators (TEGs). From the literature review, there is less emphasis on how multiple TEGs can be best configured electrically for optimum operations. In light of this, Matlab/Simulink were employed to institute a unique theoretical framework, that can easily be comprehensively used to simulate thermoelectricity parameters, with focus to determine TEG modules (of any quantity/configuration) optimal resistance matching and performance. The principal findings of the study are; 1) the effects of TEGs internal resistance, which proportionally causes output voltage drop and power loss as well as efficiency loss and 2) TEG modules may not be connected anyhow in series and or in parallel, but in a setup that gives a total electrical resistance that matches the load electrical resistance. Thus, TEGs should be a) of the same model with the same or approximate internal resistance, b) in a configuration whereby the TEGs total resistance equals the load resistance, as doing so ensures maximum power is transferred between the source (TEGs) and the electrical load and c) preferably be in a symmetrical electrical configuration. A symmetrical electrical configuration ensures ⅰ) the TEG modules total output resistance, irrespective of the quantity used, approximates that of a single TEG, with the overall TEG modules simply becoming now one large powerful TEG having an equivalent resistance of a single TEG and ⅱ) the TEGs power, voltage and current operations are optimal.

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AIMS Energy
Pages 102-130

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Cite this article:
Bayendang NP, Kahn MT, Balyan V. Thermoelectric Generators (TEGs) modules—Optimum electrical configurations and performance determination. AIMS Energy, 2022, 10(1): 102-130. https://doi.org/10.3934/energy.2022007

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Received: 20 November 2021
Revised: 03 March 2022
Accepted: 09 March 2022
Published: 15 February 2022
©2022 the Author(s), licensee AIMS Press.

This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0)