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Literature DB >> 21230882

Efficiency at maximum power of low-dissipation Carnot engines.

Massimiliano Esposito¹, Ryoichi Kawai, Katja Lindenberg, Christian Van den Broeck.

Abstract

We study the efficiency at maximum power, η*, of engines performing finite-time Carnot cycles between a hot and a cold reservoir at temperatures Th and Tc, respectively. For engines reaching Carnot efficiency ηC=1-Tc/Th in the reversible limit (long cycle time, zero dissipation), we find in the limit of low dissipation that η* is bounded from above by ηC/(2-ηC) and from below by ηC/2. These bounds are reached when the ratio of the dissipation during the cold and hot isothermal phases tend, respectively, to zero or infinity. For symmetric dissipation (ratio one) the Curzon-Ahlborn efficiency ηCA=1-√Tc/Th] is recovered.

Entities: Chemical Disease Gene

Year: 2010 PMID： 21230882 DOI： 10.1103/PhysRevLett.105.150603

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

22 in total

1. Bounds and phase diagram of efficiency at maximum power for tight-coupling molecular motors.

Authors: Z C Tu
Journal: Eur Phys J E Soft Matter Date: 2013-02-12 Impact factor: 1.890

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Journal: Entropy (Basel) Date: 2021-04-23 Impact factor: 2.524

3. More bang for your buck: super-adiabatic quantum engines.

Authors: A del Campo; J Goold; M Paternostro
Journal: Sci Rep Date: 2014-08-28 Impact factor: 4.379

4. Universality of maximum-work efficiency of a cyclic heat engine based on a finite system of ultracold atoms.

Authors: Zhuolin Ye; Yingying Hu; Jizhou He; Jianhui Wang
Journal: Sci Rep Date: 2017-07-24 Impact factor: 4.379

5. Enhancing Thermal Conductivity and Photo-Driven Thermal Energy Charging/Discharging Rate of Annealed CMK-3 Based Phase Change Material.

Authors: Yanfeng Chen; Cuiyin Liu; Yue Situ; Jian Liu; Hong Huang
Journal: Nanomaterials (Basel) Date: 2019-03-05 Impact factor: 5.076

Efficiency at maximum power of low-dissipation Carnot engines.

1. Bounds and phase diagram of efficiency at maximum power for tight-coupling molecular motors.

2. Comparative Assessment of Various Low-Dissipation Combined Models for Three-Terminal Heat Pump Systems.

3. More bang for your buck: super-adiabatic quantum engines.

4. Universality of maximum-work efficiency of a cyclic heat engine based on a finite system of ultracold atoms.

5. Enhancing Thermal Conductivity and Photo-Driven Thermal Energy Charging/Discharging Rate of Annealed CMK-3 Based Phase Change Material.

6. Efficiency of Harmonic Quantum Otto Engines at Maximal Power.

7. Optimization and Stability of Heat Engines: The Role of Entropy Evolution.

8. Thermodynamics of Majority-Logic Decoding in Information Erasure.

9. Quantum-enhanced absorption refrigerators.

10. Brownian Carnot engine.