Case Studies in Thermal Engineering (Nov 2014)

Simulation and experimental study on thermal optimization of the heat exchanger for automotive exhaust-based thermoelectric generators

  • C.Q. Su,
  • W.S. Wang,
  • X. Liu,
  • Y.D. Deng

DOI
https://doi.org/10.1016/j.csite.2014.06.002
Journal volume & issue
Vol. 4, no. C
pp. 85 – 91

Abstract

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Thermoelectric technology has revealed the potential for automotive exhaust-based thermoelectric generator (TEG), which contributes to the improvement of the fuel economy of the engine-powered vehicle. As a major factor, thermal capacity and heat transfer of the heat exchanger affect the performance of TEG effectively. With the thermal energy of exhaust gas harvested by thermoelectric modules, a temperature gradient appears on the heat exchanger surface, so as the interior flow distribution of the heat exchanger. In order to achieve uniform temperature distribution and higher interface temperature, the thermal characteristics of heat exchangers with various heat transfer enhancement features are studied, such as internal structure, material and surface area. Combining the computational fluid dynamics simulations and infrared test on a high-performance engine with a dynamometer, the thermal performance of the heat exchanger is evaluated. Simulation and experiment results show that a plate-shaped heat exchanger made of brass with accordion-shaped internal structure achieves a relatively ideal performance, which can practically improve overall thermal performance of the TEG.

Keywords