On the design of a trench thermoelectric source of heat and electricity

Authors

  • L.I. Anatychuk 1. Institute of Thermoelectricity of the NAS and MES of Ukraine, 1 Nauky str., Chernivtsi, 58029, Ukraine. 2. Yuriy Fedkovych Chernivtsi National University 2 Kotsiubynskyi str., Chernivtsi, 58012, Ukraine
  • V.V. Lysko 1. Institute of Thermoelectricity of the NAS and MES of Ukraine, 1 Nauky str., Chernivtsi, 58029, Ukraine. 2. Yuriy Fedkovych Chernivtsi National University 2 Kotsiubynskyi str., Chernivtsi, 58012, Ukraine

Keywords:

thermoelectric source of heat and electricity, physical model, efficiency, cyclic mode

Abstract

The article presents physical and mathematical models of a trench thermoelectric source of heat and electricity intended for heating the military and powering low-power military equipment, mobile and special communications systems, charging batteries and lighting, providing heat and minimal electrical energy to the civilian population in places where the energy infrastructure has been destroyed, as well as in non-electrified areas outside the combat zone.A computer model has been created for designing the structure of such a heat and electricity source, as well as optimizing the thermoelectric material it is made of for various operating modes.Bibl. 15, Fig.1.

References

Pat. CN216524233U. Thermoelectric water kettle water level detection circuit. Published 13.05.2022.

Pat. CN105167597B. A kind of thermo-electric generation hot-water bottle. Published 02.01.2018.

Pat. CN209391675U. A kind of heating vessel. Published. 17.09.2019.

Pat. CN208806757U. Thermo-electric generation wild cooker. Published. 30.04.2019.

Pat. GB2605345A. Cooking vessel. Published 28.09.2022.

Montecucco A. & Siviter J. & Knox A.R. (2017). Combined heat and power system for stoves with thermoelectric generators. Applied Energy, Elsevier, 185(P2), 1336-1342. DOI: 10.1016/j.apenergy.2015.10.132.

Żołądek Maciej, Papis Karolina, Kuś Jakub, Zając Michal, Figaj Rafal and Rudykh Kyrylo (2020). The use of thermoelectric generators with home stoves. E3S Web Conf., 173 (2020) 03005. DOI: https://doi.org/10.1051/e3sconf/202017303005.

Wood stove thermoelectric generator rabbit ears. Retrieved from: https://thermoelectric-generator.com/product/wood-stove-thermoelectric-generator-rabbit-ears/.

45-watt teg generator for wood stoves with air-cooling. Retrieved from: https://www.tegmart.com/thermoelectric-generators/wood-stove-air-cooled-45w-teg.

Thermoelectric power generator for fireplace heater. Retrieved from: http://www.thermonamic.com/pro_view.asp?id=828.

Shevel E. V., Vorobyov M. V. (2021). Teploobmin pry kypinni: navchalnyi posibnyk [Heat transfer during boiling: a tutorial]. Kyiv: Igor Sikorsky KPI.

Tolubinskii V. I. (1980). Teploobmen pri kipenii[Heat transfer during boiling]. Kyiv: Naukova dumka

COMSOL Multiphysics User’s Guide. COMSOLAB, 2010. – 804 p.

Anatychuk L. I., Lysko V. V. (2019). Thermoelectricity: Vol. 5. Metrology of Thermoelectric Materials. Chernivtsi: Bukrek.

Anatychuk L. I., Lysko V. V. (2014). On improvement of the accuracy and speed in the process of measuring characteristics of thermoelectric materials. Journal of Electronic Materials, 43(10), 3863-3869.

How to Cite

Anatychuk, L., & Lysko, V. (2024). On the design of a trench thermoelectric source of heat and electricity. Journal of Thermoelectricity, (1), 93–100. Retrieved from http://jte.ite.cv.ua/index.php/jt/article/view/10

Issue

Section

Thermoelectric products

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