New method for quickly measuring the maximum conversion power of a thermoelectric module/generator

Maximum output power (Pomax) is the main characteristic parameter of energy conversion of a thermoelectric module (TEM)/generator (TEG). To obtain this parameter, the module’s dynamic internal resistance under the actual operating condition must be accurately determined to realize load matching. Our...

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Bibliographic Details
Published inEnergy (Oxford) Vol. 197; p. 117153
Main Authors Gao, Junling, Tang, Kechen, Yan, Yonggao, Zhang, Shimin
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 15.04.2020
Elsevier BV
Subjects
Brittleness
Circuits
Dynamic internal resistance
Energy conversion
Load
Load matching
Load resistance
Maximum output power
Maximum power
Modules
Open circuit voltage
Parameters
Short circuit currents
Short-circuit current
Temperature gradients
Theoretical analysis
Thermoelectric module
Thermoelectricity
Maximum output power
Load matching
Thermoelectric module
Dynamic internal resistance
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Summary:Maximum output power (Pomax) is the main characteristic parameter of energy conversion of a thermoelectric module (TEM)/generator (TEG). To obtain this parameter, the module’s dynamic internal resistance under the actual operating condition must be accurately determined to realize load matching. Our theoretical analysis reveals that the dynamic internal resistances are almost identical when the module achieves three stable operating conditions, i.e., maximum power output, open circuit, and short circuit, with stable temperature differences between the cold and hot sides. Based on this conclusion, a new method to quickly and accurately acquire the Pomax of a TEM using thermal inertia, open-circuit voltage, and short-circuit current is proposed. This method can quickly determine the TEM dynamic internal resistance at Pomax, which can be set as the load, to directly achieve dynamic matching between load and internal resistance. This is the first study that reports the Pomax of a TEM/TEG with only one measurement; this can significantly reduce the time spent using the traditional method, which requires multiple measurements with varying loads. The experiment verified the high accuracy and low error (less than 1%) of the method. •Accurate and rapid determination of the matching load for a TEM/TEG•Rapid obtainment of the maximum conversion power of a TEM/TEG by one load resistance•A typical TEM measured showing results in agreement with theoretical analysis
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2020.117153