Thermodynamic Performance Assessment of Solar Based Closed Brayton Cycle for Different Supercritical Fluids

机译：不同超临界流体的太阳能封闭布雷顿循环热力学性能评估

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In this study, a comprehensive analysis for solar based closed Brayton cycle is carried out for different supercritical working fluids. For this aim, a mathematical model is developed in order to investigate the performance of the closed Brayton cycle. Then, a parametric study is performed to identify the effect of compression ratio, working fluid type, and solar irradiation on the performance of the system. A mathematical model is also used for parabolic trough solar collector. The designing and modeling equations are solved in the Engineering Equation Solver environment. The results show that R744 is most suitable working fluid for increasing the performance among the other types of cycle working fluids. The results of this study are intended to guide researchers who work on thermodynamic analysis of Brayton cycles to design these systems more efficiently.

机译：在这项研究中，针对不同的超临界工作流体对基于太阳的封闭布雷顿循环进行了综合分析。为此目的，开发了数学模型以研究封闭布雷顿循环的性能。然后，进行参数研究，以确定压缩比，工作流体类型和太阳辐射对系统性能的影响。数学模型也用于抛物槽式太阳能收集器。设计和建模方程是在“工程方程求解器”环境中求解的。结果表明，在其他类型的循环工作液中，R744是最适合用于提高性能的工作液。这项研究的结果旨在指导致力于布雷顿循环热力学分析的研究人员更有效地设计这些系统。

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《International Conference on Smart and Sustainable Technologies》|2019年|1-5|共5页
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Anil Erdogan; Onder Kizilkan; C. Ozgur Colpan;
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Fluids; Mathematical model; Radiation effects; Thermodynamics; Heating systems; Turbines; Receivers;

机译：流体;数学模型;辐射效应;热力学;加热系统;涡轮机;接收器;

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4. Thermodynamic Performance Assessment of Solar Based Closed Brayton Cycle for Different Supercritical Fluids [C] . Anil Erdogan, Onder Kizilkan, C. Ozgur Colpan International Conference on Smart and Sustainable Technologies . 2019

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Thermodynamic Performance Assessment of Solar Based Closed Brayton Cycle for Different Supercritical Fluids

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