Energy Reports (Nov 2022)

A novel mechanism for thermal management at the cold side of a pulsed two-stage thermoelectric micro-cooler with different PCM heat sink shapes

  • Olao Yair Enciso-Montes de Oca,
  • Miguel Ángel Olivares-Robles,
  • Pablo Eduardo Ruiz-Ortega

Journal volume & issue
Vol. 8
pp. 6929 – 6944

Abstract

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A new mechanism for thermal management at the cold side of a pulsed two-stage thermoelectric micro-cooler (Two-stage μTEC) is presented. The Two-stage μTEC operates under different electric current values at each stage and uses a phase change material (PCM) in different heat sink shapes for temperature control in the cold junction. A geometric factor γ is defined for designing an optimal heat sink based on reducing the cross-sectional area of the second stage thermoelements. The aim is to save the amount of PCM used and keep the cold side temperature (Tc) constant for as long as possible. This thermoelectric device is proposed to treat skin diseases and is suitable for use in cryomassage. A one-dimensional numerical model is considered in the system’s heat transfer, and cooling by natural convection on the hot side is considered. PCM is used as a cooling substance because it can absorb large amounts of latent heat at a nearly constant temperature. The influence of the electric current pulse and the γ geometric relationship on the micro-cooler are analyzed to determine the optimum operating values that allow a constant temperature of 243 K to be reached in the cold junction. The temperature of the cold side is kept constant by using different electric currents in each stage for the geometric factor γ=4during Δtpulse=95.7s. On the other hand, the optimization of the heat sink, the geometric factor

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