Power and power density analyzes of an endoreversible modified variable-temperature reservoir Brayton cycle with isothermal heat addition-Reference-Cited by-同舟云学术

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Power and power density analyzes of an endoreversible modified variable-temperature reservoir Brayton cycle with isothermal heat addition

Published:2013-08-20 Issue: Volume: Page:ctt057
ISSN:1748-1317
Container-title:International Journal of Low-Carbon Technologies
language:en
Short-container-title:Int. J. Low-Carbon Tech.

Author:

Wang Junhua,Chen Lingen,Ge Yanlin,Sun Fengrui

Publisher

Oxford University Press (OUP)

Subject

General Environmental Science,Architecture,Civil and Structural Engineering

Link

http://academic.oup.com/ijlct/article-pdf/11/1/42/7148229/ctt057.pdf

Reference40 articles.

1. Mason LS Shaltens RK Dolce JL . Status of Brayton Cycle Power Conversion Development at NASA GRC. Glenn Research Center; 2002.

2. Barrett MJ . Performance Expectations of Closed-Brayton-Cycle Heat Exchangers in 100-kWe Nuclear Space Power Systems. Glenn Research Center; 2003.

3. Barrett MJ Reid BM . Space Technology and Applications International Forum. IOP Institute of Physics Publishing Ltd; 2004. System mass variation and entropy generation in 100-kWe Closed-Brayton-Cycle space power systems.

4. A Power Conversion Concept for the Jupiter Icy Moons Orbiter

5. Johnson PK Mason LS . Design and Off-design Performance of 100 kWe-class Brayton Power Conversion Systems. Glenn Research Center; 2005.

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1. Performance analysis and multi-objective optimization of an irreversible isothermal heating modified air standard Brayton cycle;Results in Engineering;2024-03

2. A modified Diesel cycle via isothermal heat addition, its endoreversible modelling and multi-objective optimization;Energy;2024-03

3. Four-Objective Optimizations for an Improved Irreversible Closed Modified Simple Brayton Cycle;Entropy;2021-02-26

4. Power density analysis and multi-objective optimization for a modified endoreversible simple closed Brayton cycle with one isothermal heating process;Energy Reports;2020-11

5. Power, Efficiency, Power Density and Ecological Function Optimization for an Irreversible Modified Closed Variable-Temperature Reservoir Regenerative Brayton Cycle with One Isothermal Heating Process;Energies;2020-10-02

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