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References (12)
-
Hamed Dizaji, S. Jafarmadar, S. Khalilarya (2019)
Novel experiments on COP improvement of thermoelectric air coolersEnergy Conversion and Management
-
(1960)
Semiconductor Thermoelements, Publishing House of the USSR Academy of Sciences, MoscowLeningrad -
E. Vasil’ev (2022)
The Effect of Thermal Resistances on the Coefficient of Performance of a Thermoelectric Cooling SystemTechnical Physics
-
(1986)
Mednikova, Heat Exchangers of Refrigeration Systems, Leningrad -
(1977)
Dul'kin, Thermal Calculation of Ribbed Surfaces -
E. Vasil’ev, Ehl’mar Gejnts, V. Derevyanko, Evgenii Kokov, S. Kukushkin (2019)
Thermoelectric Cooling BlockJournal of Siberian Federal University. Engineering & Technologies
-
O. Castro-Orgaz, W. Hager (2019)
and sShallow Water Hydraulics
-
J. Vián, D. Astrain (2008)
Development of a heat exchanger for the cold side of a thermoelectric moduleApplied Thermal Engineering, 28
-
E. Vasil’ev, V. Derevyanko (2018)
The dynamics of phase changes in a heat storage of thermal control system for onboard radio-electronic equipmentThermophysics and Aeromechanics, 25
-
E. Vasil'ev (2020)
Heat Exchange Modeling in Cooling FinsJournal of Siberian Federal University: Engineering & Technologies
-
EN Vasil’ev, ER Geints, VA Derevyanko, EG Kokov, SV Kukushkin (2019)
Thermoelectric cooling block, J. Siberian Federal UniversityEngineering and Technologies, 12
-
(2017)
Calculation and Optimization of Thermoelectric Cooling Modes of Thermally Loaded Element
- Publisher
- Springer Journals
- Copyright
- Copyright © E.N. Vasil’ev 2022
- ISSN
- 0869-8643
- eISSN
- 1531-8699
- DOI
- 10.1134/s0869864322030088
- Publisher site
- See Article on Publisher Site
Abstract
The processes of heat transfer in air and liquid plate-fin heat exchangers of a thermoelectric cooling system are considered. The flow modes in interfin channels are analyzed, and the local heat-transfer coefficients are determined. From the numerical solution of the two-dimensional heat-conduction problem, dependences of the thermal resistances of heat exchangers on their geometric parameters are obtained. The influence of thermal resistances on the cooling capacity and on the coefficient of performance of the thermoelectric cooling system is determined. Optimization of heat exchangers in terms of fin thickness and interfin spacing has been performed.
Journal
Thermophysics and Aeromechanics – Springer Journals
Published: May 1, 2022
Keywords: plate-fin heat exchanger; thermal resistance; thermoelectric cooling system; cooling capacity; coefficient of performance