• CN:11-2187/TH
  • ISSN:0577-6686

›› 2014, Vol. 50 ›› Issue (20): 163-166.doi: 10.3901/JME.2014.20.163

• 论文 • 上一篇    下一篇

热漏对低耗散卡诺热机最大功率下效率及边界的影响

张艳超;何济洲   

  1. 南昌大学物理系
  • 出版日期:2014-10-20 发布日期:2014-10-20

Influence of Heat Leak on Efficiency at Maximum Power and Its Bounds of Low-dissipation Carnot Heat Engine

ZHANG Yanchao;HE Jizhou   

  • Online:2014-10-20 Published:2014-10-20

摘要: 在低耗散卡诺热机模型的基础上,进一步研究热漏对低耗散卡诺热机最大功率下效率及其边界的影响。在类卡诺热机循环条件下,考虑等温膨胀与等温压缩过程中高低温热源之间存在热漏,推导出存在热漏时低耗散卡诺热机最大功率下效率的表达式,并且在对称情况下与经典CA(Curzon-Ahlborn)效率进行比较。发现当不存在热漏时,低耗散卡诺热机最大功率下的效率等于CA效率。当存在热漏时,低耗散卡诺热机最大功率下的效率低于CA效率,并随着热漏的增加而降低。在非对称下得到存在热漏时低耗散卡诺热机最大功率下效率的上下限和可观测范围,并与不同种类实际的热机效率进行比较,结果表明考虑热漏时低耗散卡诺热机的效率及其边界更加符合实际热机的观测值。

关键词: 低耗散, 卡诺热机, 热漏, 效率, 有限时间热力学

Abstract: Based on the low-dissipation Carnot heat engine model, the influence of heat leak on the efficiency at maximum power and its bounds of low-dissipation Carnot heat engine are further discussed. Under the condition of Carnot-like heat engine cycle, the expressions for the efficiency at maximum power of the quantum dot engine are derived in the presence of heat leak between hot reservoir and cold reservoir of the isothermal expansion and the isothermal compression process, and compared with the classical CA efficiency in the symmetric case. It is found that, when there is no heat leak, the efficiency at maximum power of the low-dissipation Carnot heat engine is equal to the CA efficiency. In the presence of heat leak, the efficiency at maximum power of the low-dissipation Carnot heat engine is lower than the CA efficiency, and decreases with the increases of heat leak. In the case of asymmetric, the upper bound and lower bound of efficiency at maximum power are obtained, and compared with different kinds of actual engine efficiency. The results show that the efficiency at maximum power and its bounds in correspondence with the observed performance of real heat engines in the presence of heat leak.

Key words: Carnot heat engine, efficiency, finite-time thermodynamics, heat leak, low-dissipation

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