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Journal Abstract Search

151 related items for PubMed ID: 34682068

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  • 3. Performance Analysis and Optimization for Irreversible Combined Carnot Heat Engine Working with Ideal Quantum Gases.
    Chen L, Meng Z, Ge Y, Wu F.
    Entropy (Basel); 2021 Apr 27; 23(5):. PubMed ID: 33925622
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  • 4. Action and Entropy in Heat Engines: An Action Revision of the Carnot Cycle.
    Kennedy IR, Hodzic M.
    Entropy (Basel); 2021 Jul 05; 23(7):. PubMed ID: 34356401
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  • 5. Achieving the classical Carnot efficiency in a strongly coupled quantum heat engine.
    Xu YY, Chen B, Liu J.
    Phys Rev E; 2018 Feb 05; 97(2-1):022130. PubMed ID: 29548214
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  • 7. Optimal Power and Efficiency of Multi-Stage Endoreversible Quantum Carnot Heat Engine with Harmonic Oscillators at the Classical Limit.
    Meng Z, Chen L, Wu F.
    Entropy (Basel); 2020 Apr 17; 22(4):. PubMed ID: 33286231
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  • 8. The Principle of Least Action for Reversible Thermodynamic Processes and Cycles.
    Zhao T, Hua YC, Guo ZY.
    Entropy (Basel); 2018 Jul 21; 20(7):. PubMed ID: 33265631
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  • 11. Ecological efficiency of finite-time thermodynamics: A molecular dynamics study.
    Rojas-Gamboa DA, Rodríguez JI, Gonzalez-Ayala J, Angulo-Brown F.
    Phys Rev E; 2018 Aug 21; 98(2-1):022130. PubMed ID: 30253568
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  • 13. Geometric Bound on the Efficiency of Irreversible Thermodynamic Cycles.
    Frim AG, DeWeese MR.
    Phys Rev Lett; 2022 Jun 10; 128(23):230601. PubMed ID: 35749204
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  • 16. Experimental observations of the effects of intermolecular Van der Waal forces on entropy.
    Marko MD.
    Sci Rep; 2022 May 02; 12(1):7105. PubMed ID: 35501428
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  • 17. Molecular kinetic analysis of a local equilibrium Carnot cycle.
    Izumida Y, Okuda K.
    Phys Rev E; 2017 Jul 02; 96(1-1):012123. PubMed ID: 29347144
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  • 20. Limiting Performance of the Ejector Refrigeration Cycle with Pure Working Fluids.
    Fu J, Liu Z, Yang X, Jin S, Ye J.
    Entropy (Basel); 2023 Jan 24; 25(2):. PubMed ID: 36832590
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