Experimental studies of thermoelectric parameters of materials forming part of thermoelectric modules

Authors

  • M. V. Havryliuk Institute of Thermoelectricity of the NAS and MES of Ukraine, 1 Nauky str., Chernivtsi, 58029, Ukraine
  • V.V. Lysko 1Institute 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, 58000, Ukraine
  • O. S. Rusnak Institute of Thermoelectricity of the NAS and MES of Ukraine, 1 Nauky str., Chernivtsi, 58029, Ukraine

Keywords:

thermoelectric module, electrical conductivity, thermoEMF, thermal conductivity, thermoelectric material, measurement

Abstract

The design of equipment for measuring the parameters of thermoelectric generator and cooling modules is presented, as well as a description of the method for determining the thermoelectric properties of materials used in these modules. The equipment was created on the basis of the absolute method, which makes it possible to determine the parameters of modules in real conditions of their operation and allows instrumental minimization of the main sources of measurement errors. The results of experimental studies of the parameters of thermoelectric modules carried out using the developed equipment are presented. Bibl. 8, Fig. 7, Table. 2.

References

1. Kolodner P. (2014). High-precision thermal and electrical characterization of thermoelectric modules. Review of Scientific Instruments, 85 (5), 054901/1-054901/11.

2. Anatychuk L.I., Havrylyuk M.V. (2011). Procedure and equipment for measuring parameters of thermoelectric generator modules. J. Electronic Materials, 40 (5), 1292 – 1297.

3. Anatychuk L.I., Lysko V.V. (2021). Method for determination of thermoelectric parameters of materials forming part of thermoelectric cooling modules. J. Thermoelectricity, 1, 49 – 54.

4. Anatychuk L.I., Lysko V.V. (2020). Determination of thermoelectric parameters of materials forming part of thermoelectric generator modules. J. Thermoelectricity, 3, 70 – 80.

5. Anatychuk L.I., Lysko V.V. (2021). Determination of the temperature dependences of thermoelectric parameters of materials used in generator thermoelectric modules with a rise in temperature difference. J. Thermoelectricity, 2, 53 – 57.

6. Anatychuk L.I., Havryliuk M.V., Lysko V.V. (2021). Computerization of processes of measuring thermoelectric parameters of materials forming part of generator and cooling thermoelectric modules. J. Thermoelectricity, 2, 62 – 66.

7. Anatychuk L.I., Havryliuk M.V., Lysko V.V. (2021). Equipment for determination of parameters of thermoelectric generator modules. J. Thermoelectricity, 3, 53 – 57.

8. Anatychuk L.I., Havryliuk M.V., Lysko V.V. (2021). Equipment for determination of parameters of thermoelectric cooling modules. J. Thermoelectricity, 3, 62 – 66.

How to Cite

Havryliuk, M. V., Lysko, V., & Rusnak, O. S. (2024). Experimental studies of thermoelectric parameters of materials forming part of thermoelectric modules. Journal of Thermoelectricity, (2), 25–33. Retrieved from http://jte.ite.cv.ua/index.php/jt/article/view/124

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