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Design of a novel thermoelectric module based on application stability and power generation

Lin Liu, Xiangning Meng, Zhuang Miao, Sen Zhou

2022Case Studies in Thermal Engineering57 citationsDOIOpen Access PDF

Abstract

Application stability and power generation of a conventional cube-type thermoelectric (TE) module were analyzed considering different shapes. It was found that the stress concentration occurred in the copper electrodes of cube-type ones. Further, cube TE legs were re-designed into cylinder ones. And stress concentration in the copper electrodes has reduced. To explore novel designing for enhancing efficiency, the truncated cone-type TE module with a smaller cold end area was designed. The results show that application stability and power generation have been optimized synchronously. The maximum stress has dropped by 1.9% compared with the cube-type TE module, and the maximum deformation is decreased by 1.4%. When the temperature difference is 80K, the output power of the novel TE module is enhanced by 9.3%. The proposed truncated cone-type TE module has high reliability and applicability, and it can be a promising method for heat harvesting.

Topics & Concepts

Cube (algebra)Materials scienceThermoelectric generatorStress (linguistics)Deformation (meteorology)CopperCylinderDie (integrated circuit)Reliability (semiconductor)Maximum power principlePower (physics)ElectrodeStability (learning theory)Thermoelectric effectComposite materialComputer scienceGeometryMathematicsMetallurgyNanotechnologyThermodynamicsPhysicsLinguisticsQuantum mechanicsMachine learningPhilosophyAdvanced Thermoelectric Materials and DevicesThermal Radiation and Cooling TechnologiesThermal properties of materials