Reliably characterizing the performance of thermoelectric coolers

Longzhi Wu; Chenhao Lin; Xiaojing Ma; Kun Liang; Jiang Chen; Feng Jiang; Jinxuan Cheng; Xuan Li; Yue Wu; Feng Cao; Huaizhou Zhao; Jiehe Sui; Zihang Liu; Hangtian Zhu; Dongxiang Lv; Qian Zhang; Jun Mao

doi:10.1063/5.0305512

Reliably characterizing the performance of thermoelectric coolers

Longzhi Wu
, Chenhao Lin
, Xiaojing Ma
, Kun Liang
, Jiang Chen
, Feng Jiang
, Jinxuan Cheng
, Xuan Li
, Yue Wu
, Feng Cao
, Huaizhou Zhao
, Jiehe Sui
, Zihang Liu
, Hangtian Zhu^*
, Dongxiang Lv^*
, Qian Zhang^*
, Jun Mao^*

^*Corresponding author for this work

Harbin Institute of Technology (Shenzhen)
China Electronics Technology Group Corporation
Harbin Institute of Technology
CAS - Institute of Physics

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Solid-state thermoelectric cooling is a promising solution for localized thermal management. Accurate evaluation of the cooling performance is essential for optimization and design of high-performance thermoelectric coolers. However, conventional methods fail to capture performance under actual operating conditions. This article examines the measurement uncertainties in key performance metrics, e.g., cooling temperature difference, cooling power, and coefficient of performance, in the context of the heat-flow method. The results highlight that reliable measurements depend critically on both the quality of the thermal interface and the establishment of steady-state conditions. Moreover, the thermal inhomogeneity and radiative heat exchange issues have also been emphasized, and strategies to mitigate them have been discussed. In addition, a practical reference of the coefficient of performance equal to 0.5 at maximum cooling power has been proposed.

Original language	English
Article number	015205
Journal	Review of Scientific Instruments
Volume	97
Issue number	1
DOIs	https://doi.org/10.1063/5.0305512
State	Published - 1 Jan 2026

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title = "Reliably characterizing the performance of thermoelectric coolers",

abstract = "Solid-state thermoelectric cooling is a promising solution for localized thermal management. Accurate evaluation of the cooling performance is essential for optimization and design of high-performance thermoelectric coolers. However, conventional methods fail to capture performance under actual operating conditions. This article examines the measurement uncertainties in key performance metrics, e.g., cooling temperature difference, cooling power, and coefficient of performance, in the context of the heat-flow method. The results highlight that reliable measurements depend critically on both the quality of the thermal interface and the establishment of steady-state conditions. Moreover, the thermal inhomogeneity and radiative heat exchange issues have also been emphasized, and strategies to mitigate them have been discussed. In addition, a practical reference of the coefficient of performance equal to 0.5 at maximum cooling power has been proposed.",

author = "Longzhi Wu and Chenhao Lin and Xiaojing Ma and Kun Liang and Jiang Chen and Feng Jiang and Jinxuan Cheng and Xuan Li and Yue Wu and Feng Cao and Huaizhou Zhao and Jiehe Sui and Zihang Liu and Hangtian Zhu and Dongxiang Lv and Qian Zhang and Jun Mao",

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TY - JOUR

T1 - Reliably characterizing the performance of thermoelectric coolers

AU - Wu, Longzhi

AU - Lin, Chenhao

AU - Ma, Xiaojing

AU - Liang, Kun

AU - Chen, Jiang

AU - Jiang, Feng

AU - Cheng, Jinxuan

AU - Li, Xuan

AU - Wu, Yue

AU - Cao, Feng

AU - Zhao, Huaizhou

AU - Sui, Jiehe

AU - Liu, Zihang

AU - Zhu, Hangtian

AU - Lv, Dongxiang

AU - Zhang, Qian

AU - Mao, Jun

PY - 2026/1/1

Y1 - 2026/1/1

N2 - Solid-state thermoelectric cooling is a promising solution for localized thermal management. Accurate evaluation of the cooling performance is essential for optimization and design of high-performance thermoelectric coolers. However, conventional methods fail to capture performance under actual operating conditions. This article examines the measurement uncertainties in key performance metrics, e.g., cooling temperature difference, cooling power, and coefficient of performance, in the context of the heat-flow method. The results highlight that reliable measurements depend critically on both the quality of the thermal interface and the establishment of steady-state conditions. Moreover, the thermal inhomogeneity and radiative heat exchange issues have also been emphasized, and strategies to mitigate them have been discussed. In addition, a practical reference of the coefficient of performance equal to 0.5 at maximum cooling power has been proposed.

AB - Solid-state thermoelectric cooling is a promising solution for localized thermal management. Accurate evaluation of the cooling performance is essential for optimization and design of high-performance thermoelectric coolers. However, conventional methods fail to capture performance under actual operating conditions. This article examines the measurement uncertainties in key performance metrics, e.g., cooling temperature difference, cooling power, and coefficient of performance, in the context of the heat-flow method. The results highlight that reliable measurements depend critically on both the quality of the thermal interface and the establishment of steady-state conditions. Moreover, the thermal inhomogeneity and radiative heat exchange issues have also been emphasized, and strategies to mitigate them have been discussed. In addition, a practical reference of the coefficient of performance equal to 0.5 at maximum cooling power has been proposed.

UR - https://www.scopus.com/pages/publications/105027348450

U2 - 10.1063/5.0305512

DO - 10.1063/5.0305512

M3 - 文章

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SN - 0034-6748

VL - 97

JO - Review of Scientific Instruments

JF - Review of Scientific Instruments

IS - 1

M1 - 015205

ER -

Reliably characterizing the performance of thermoelectric coolers

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