Thermodynamic Performance of Three-Terminal Hybrid Quantum Dot Thermoelectric Devices 被引量：1

Thermodynamic Performance of Three-Terminal Hybrid Quantum Dot Thermoelectric Devices

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摘要 We propose four different models of three-terminal quantum dot thermoelectric devices. From general thermodynamic laws, we examine the rew;rsible efficiencies of the four different models. Based on the master equation, the expressions for the efficiency and power output are derived and the corresponding working regions are determined. Moreover, we particularly analyze the performance of a three-terminal hybrid quantum dot refrigerator. The performance characteristic curves and the optimal performance parameters are obtained. Finally, we discuss the influence of the nonradiative effects on the optimal performance parameters in detail. We propose four different models of three-terminal quantum dot thermoelectric devices. From general thermodynamic laws, we examine the rew;rsible efficiencies of the four different models. Based on the master equation, the expressions for the efficiency and power output are derived and the corresponding working regions are determined. Moreover, we particularly analyze the performance of a three-terminal hybrid quantum dot refrigerator. The performance characteristic curves and the optimal performance parameters are obtained. Finally, we discuss the influence of the nonradiative effects on the optimal performance parameters in detail.

作者施志成符婧秦伟锋何济洲

机构地区 Department of Physics

出处《Chinese Physics Letters》 SCIE CAS CSCD 2017年第11期6-10,共5页 中国物理快报（英文版）

基金 Supported by the National Natural Science Foundation of China under Grant No 11365015

关键词 Thermodynamic Performance of Three-Terminal Hybrid Quantum Dot Thermoelectric Devices

分类号 TB657.4 [一般工业技术—制冷工程]

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2严子浚.η~λP 最大时不可逆卡诺热机的η和 P[J].热能动力工程,1989,4(6):1-6. 被引量：13
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Chinese Physics Letters

2017年第11期

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Thermodynamic Performance of Three-Terminal Hybrid Quantum Dot Thermoelectric Devices 被引量：1

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