Performance assessment of an irreversible nano Brayton cycle operating with Maxwell-Boltzmann gas

被引：0

作者：

Emin Açıkkalp

Necmettin Caner

机构：

[1] Bilecik S.E. University,Department of Mechanical and Manufacturing Engineering, Engineering Faculty

[2] Eskisehir Osmangazi University,Department of Chemistry, Faculty of Arts and Sciences

来源：

The European Physical Journal Plus | / 130卷

关键词：

Entropy Generation; Work Output; Entropy Generation Rate; Exergy Destruction; Energy Inst;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

In the last decades, nano-technology has been developed very fast. According to this, nano-cycle thermodynamics should improve with a similar rate. In this paper, a nano-scale irreversible Brayton cycle working with helium is evaluated for different thermodynamic criteria. These are maximum work output, ecological function, ecological coefficient of performance, exergetic performance criteria and energy efficiency. Thermodynamic analysis was performed for these criteria and results were submitted numerically. In addition, these criteria are compared with each other and the most convenient methods for the optimum conditions are suggested.

引用

共 50 条

[1] Performance assessment of an irreversible nano Brayton cycle operating with Maxwell-Boltzmann gas
Acikkalp, Emin
Caner, Necmettin
[J]. EUROPEAN PHYSICAL JOURNAL PLUS, 2015, 130 (05):
[2] Optimization performance and thermodynamic analysis of an irreversible nano scale Brayton cycle operating with Maxwell-Boltzmann gas
Sadatsakkak, Seyed Abbas
Ahmadi, Mohammad H.
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[J]. ENERGY CONVERSION AND MANAGEMENT, 2015, 101 : 592 - 605
[3] Determining performance of an irreversible nano scale dual cycle operating with Maxwell-Boltzmann gas
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[J]. PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS, 2015, 424 : 342 - 349
[4] Performance assessment and optimization of an irreversible nano-scale Stirling engine cycle operating with Maxwell-Boltzmann gas
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[J]. The European Physical Journal Plus, 130
[5] Performance assessment and optimization of an irreversible nano-scale Stirling engine cycle operating with Maxwell-Boltzmann gas
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[J]. EUROPEAN PHYSICAL JOURNAL PLUS, 2015, 130 (09):
[6] Thermodynamic analysis and optimization of an irreversible nano scale dual cycle operating with Maxwell-Boltzmann gas
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[J]. MECHANICS & INDUSTRY, 2017, 18 (02)
[7] Entransy analysis and optimization of performance of nano-scale irreversible Otto cycle operating with Maxwell-Boltzmann ideal gas
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[J]. CHEMICAL PHYSICS LETTERS, 2016, 658 : 293 - 302
[8] Comments on "Entransy analysis and optimization of performance of nano-scale irreversible Otto cycle operating with Maxwell-Boltzmann ideal gas"
Awad, M. M.
[J]. CHEMICAL PHYSICS LETTERS, 2017, 671 : 56 - 57
[9] Determining performance of an irreversible nano scale dual cycle operating with Maxwell-Boltzmann gas (vol 424, pg 342, 2015)
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[J]. PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS, 2016, 444 : 1062 - 1062
[10] Multi-objective optimization and exergetic-sustainability of an irreversible nano scale Braysson cycle operating with Maxwell-Boltzmann gas
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