Performance analysis of new structure heat exchanger based on field synergy and numerical simulation

Performance analysis of new structure heat exchanger based on field synergy and numerical simulation

High efficiency heat exchanger is always a hot topic, and field synergy theory is introduced as an important means to optimize the heat transfer efficiency. Based on the field synergy theory, a new type of heat exchanger is proposed in this paper, in which, the cold and hot fluid presents reverse cr...

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Main Authors: Song Xinpu, Zhang Feng, Yu Jin, Xi Dongsheng, Chen Mengdi
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/36/e3sconf_aepee2021_01019.pdf
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spelling doaj-67e9ebc9e61f4caeb37744f984eee6b82021-05-28T14:41:16ZengEDP SciencesE3S Web of Conferences2267-12422021-01-012600101910.1051/e3sconf/202126001019e3sconf_aepee2021_01019Performance analysis of new structure heat exchanger based on field synergy and numerical simulationSong Xinpu0Zhang Feng1Yu Jin2Xi Dongsheng3Chen Mengdi4State Grid Xinjiang Economic Research InstituteState Grid Xinjiang Electric Power Co., LtdState Grid Xinjiang Economic Research InstituteBeijing Smart China Energy Internet Research InstituteBeijing Smart China Energy Internet Research InstituteHigh efficiency heat exchanger is always a hot topic, and field synergy theory is introduced as an important means to optimize the heat transfer efficiency. Based on the field synergy theory, a new type of heat exchanger is proposed in this paper, in which, the cold and hot fluid presents reverse cross flow law. Through the verification of the test and numerical simulation results, a reasonable numerical simulation model and method are obtained. Then, the flow and heat transfer conditions of the new structure heat exchanger are simulated by the verified numerical simulation technology. The conclusion is as follows: K-ε turbulence model and coupled heat transfer model can be effectively used in the numerical simulation of heat exchanger. And the reverse cross convection heat exchanger can effectively improve the uniformity of water temperature distribution in the heat exchanger.https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/36/e3sconf_aepee2021_01019.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Song Xinpu
Zhang Feng
Yu Jin
Xi Dongsheng
Chen Mengdi
spellingShingle Song Xinpu
Zhang Feng
Yu Jin
Xi Dongsheng
Chen Mengdi
Performance analysis of new structure heat exchanger based on field synergy and numerical simulation
E3S Web of Conferences
author_facet Song Xinpu
Zhang Feng
Yu Jin
Xi Dongsheng
Chen Mengdi
author_sort Song Xinpu
title Performance analysis of new structure heat exchanger based on field synergy and numerical simulation
title_short Performance analysis of new structure heat exchanger based on field synergy and numerical simulation
title_full Performance analysis of new structure heat exchanger based on field synergy and numerical simulation
title_fullStr Performance analysis of new structure heat exchanger based on field synergy and numerical simulation
title_full_unstemmed Performance analysis of new structure heat exchanger based on field synergy and numerical simulation
title_sort performance analysis of new structure heat exchanger based on field synergy and numerical simulation
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2021-01-01
description High efficiency heat exchanger is always a hot topic, and field synergy theory is introduced as an important means to optimize the heat transfer efficiency. Based on the field synergy theory, a new type of heat exchanger is proposed in this paper, in which, the cold and hot fluid presents reverse cross flow law. Through the verification of the test and numerical simulation results, a reasonable numerical simulation model and method are obtained. Then, the flow and heat transfer conditions of the new structure heat exchanger are simulated by the verified numerical simulation technology. The conclusion is as follows: K-ε turbulence model and coupled heat transfer model can be effectively used in the numerical simulation of heat exchanger. And the reverse cross convection heat exchanger can effectively improve the uniformity of water temperature distribution in the heat exchanger.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/36/e3sconf_aepee2021_01019.pdf
work_keys_str_mv AT songxinpu performanceanalysisofnewstructureheatexchangerbasedonfieldsynergyandnumericalsimulation
AT zhangfeng performanceanalysisofnewstructureheatexchangerbasedonfieldsynergyandnumericalsimulation
AT yujin performanceanalysisofnewstructureheatexchangerbasedonfieldsynergyandnumericalsimulation
AT xidongsheng performanceanalysisofnewstructureheatexchangerbasedonfieldsynergyandnumericalsimulation
AT chenmengdi performanceanalysisofnewstructureheatexchangerbasedonfieldsynergyandnumericalsimulation
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