Transfer Study on Optimal Configuration of Forward and Reverse Thermal Cycles under Different Heat Transfer Laws
Authors: 
Gen Fan, Jun Li, Wenbin LiuAuthors Info & Claims
Gen Fan, Jun Li, Wenbin LiuAuthors Info & ClaimsPages 1330 - 1332
Abstract
Based on the theory of finite time thermodynamics, this paper extends a high temperature heat source (heat engine mode), a low temperature heat source (refrigerator mode) from high to low temperature heat sources as infinite heat sources, from Newton's law heat transfer to the other differential heat transfer laws, to study thermal transfer laws on the positive and negative thermal cycle of the optimal configuration. Starting with a relatively simple thermodynamic cycle without heat leakage, the best configuration for a hot engine and a refrigerator cycle is studied under the condition of a relatively simple linear and phenomenological heat transfer laws. On this basis, a modified Lagrangian is established, and the given cycle period and the maximum output work [1] are taken as the constraints. The variation law of high temperature heat source and work medium temperature can be obtained by solving the EULER–Lagrange equation, optimum configuration of instantaneous heat engine. The mathematical model is established by variational method and numerical solution method, and the numerical solution is obtained by iterative method with Matlab software.
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Published In
October 2021
3136 pages
ISBN:9781450385046
DOI:10.1145/3495018
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Association for Computing Machinery
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Published: 14 March 2022
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- Research-article
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- Refereed limited
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- This research was supported by the Science Fund of educational commission of Hubei province in China (Grant No. B2020250)
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AIAM2021
AIAM2021: 2021 3rd International Conference on Artificial Intelligence and Advanced Manufacture
October 23 - 25, 2021
Manchester, United Kingdom
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Overall Acceptance Rate 100 of 285 submissions, 35%
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