Thermal control of parallelly connected thermoelectric coolers in a uniform temperature field

Authors

  • Vladimir P. Zaykov Research Institute “STORM”, 27, Tereshkova Str. Odessa, 65076, Ukraine
  • Vladimir I. Mescheryakov State Environmental University. 15, Lvivska Str. Odessa, 65026, Ukraine
  • Yurii I. Zhuravlov National University “Odessa Maritime Academy”, 8, Didrikhson Str. Odessa, 65029, Ukraine

DOI:

https://doi.org/10.15276/hait.05.2022.12

Keywords:

Mathematical model, thermoelectric cooler, thermal regime, temperature difference, operating current, reliability indicators, dynamic characteristics

Abstract

The possibility of using a set of thermoelectric devices to control the thermal regime of a number of thermo-dependent and heat-loaded elements of radio-electronic equipment, which are subject to increased requirements for reliability indicators and dynamic characteristics, is considered. A mathematical model of a thermoelectric device has been developed for a uniform temperature field, a typical range of power dissipation of the products used, a range of standard values of the supply voltage, and a fixed geometry of thermoelement legs. A relation is obtained for determining the relative operating current depending on the relative temperature difference at a given supply voltage, the geometry of the thermoelement branches, and the magnitude of the thermal load. The region of real values of the relative operating current in the zone of relative temperature differences is determined for a given geometry of branches and thermal load. An analysis is made of the relationship between the relative operating current of a single-stage thermoelectric cooler and the coefficient of performance, the amount of energy expended, the heat-removing capacity of the radiator, the time to reach a stationary mode, and the probability of failure-free operation. The dependence of the relative failure rate and the probability of failure-free operation, the amount of energy expended, the heat-removing capacity of the radiator, and the number of thermoelements on the supply voltage of the thermoelectric cooler has been studied. This made it possible to evaluate the control features and identify the effectiveness of the control actions when the coolers are connected in parallel in a uniform temperature field. The possibility of choosing the optimal supply voltage is shown, taking into account a number of restrictive factors in terms of weight, size, energy, dynamic and reliability characteristics of a complex of thermoelectric coolers as part of systems for ensuring thermal regimes of heat-loaded radio-electronic equipment.

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Author Biographies

Vladimir P. Zaykov, Research Institute “STORM”, 27, Tereshkova Str. Odessa, 65076, Ukraine

Candidate of Engineering Sciences, Associate Professor, Head of Sector Research Institute “STORM”

Scopus Author ID: 57192640250

Vladimir I. Mescheryakov, State Environmental University. 15, Lvivska Str. Odessa, 65026, Ukraine

D.Sc (Eng), Professor, Head of Department of Informatics 

Scopus Author ID: 57192640885

Yurii I. Zhuravlov, National University “Odessa Maritime Academy”, 8, Didrikhson Str. Odessa, 65029, Ukraine

Candidate of Engineering Sciences, Associate Professor of the Department of Technology of Materials and Ship Repair. 

Scopus Author ID: 57190425471

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Published

2022-07-04

How to Cite

Zaykov, V. P. ., Mescheryakov, V. I. ., & Zhuravlov, Y. I. (2022). Thermal control of parallelly connected thermoelectric coolers in a uniform temperature field. Herald of Advanced Information Technology, 5(2), 143–155. https://doi.org/10.15276/hait.05.2022.12

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