Comment on 'Study on the consistency between field synergy principle and entransy dissipation extremum principle'

Zhi-Qiang Yu; Peng Wang; Wen-Jing Zhou; Zeng-Yao Li; Wen-Quan Tao

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Comment on 'Study on the consistency between field synergy principle and entransy dissipation extremum principle'

机译：评论“关于场协同原理与穿越耗散极值原理之间一致性的研究”

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•Connection between FSP and EDEP is analyzed via eight numerical examples.

•The best composite porous material form composed of tetrakaidecahedron is obtained.

•Inherent consistency between FSP and EDEP via Fc is definitely demonstrated.

Abstract

This paper is aiming at numerically demonstrating the interrelationship and consistency between field synergy principle (FSP) via the field synergy number (Fc) and the entransy dissipation extremum principle (EDEP). Numerical simulation is conducted by using the FLUENT software and the user defined function programs (UDF) for fin-and-tube surfaces (plain plate and slotted fins) and composite porous materials. The thermal boundary conditions include given heat flux and given surface temperature. The flow includes laminar and turbulent. The air properties may be constant or vary with temperature. Based on the numerical data the analyzed results from the FSP via Fc are totally consistent with the results analyzed by the EDEP for all the cases studied. Such consistency between the FSP and the entransy theory can be regarded as a kind of demonstration of the reliability and correctness of both the FSP and the entransy theory.

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• 通过八个数值示例分析了FSP和EDEP之间的联系。 < ce：list-item id =“ o0010”> • 获得了最佳的由正十二面体组成的复合多孔材料形式。

• FSP和EDEP之间通过Fc固有的一致性得到了证实。

摘要< / ce：section-title>

本文旨在以数字方式说明相互关系场协同数（Fc）和场耗极值原理（EDEP）之间的场协同原理（FSP）之间的一致性。使用FLUENT软件和用户定义的功能程序（UDF）对翅片和管子表面（普通板和开缝翅片）和复合多孔材料进行数值模拟。热边界条件包括给定的热通量和给定的表面温度。流动包括层流和湍流。空气性质可以恒定或随温度变化。根据数值数据，FSP通过Fc得出的分析结果与EDEP分析的所有情况下的结果完全一致。 FSP和对等理论之间的这种一致性可以看作是FSP和对等理论的可靠性和正确性的一种证明。

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来源
《International Journal of Heat and Mass Transfer》 |2018年第5期|1187-1188|共2页
作者
Zhi-Qiang Yu; Peng Wang; Wen-Jing Zhou; Zeng-Yao Li; Wen-Quan Tao;
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作者单位

Key Laboratory of Thermo-Fluid Science and Engineering, Ministry of Education, School of Energy and Power Engineering, Xi’an Jiaotong University;

Key Laboratory of Thermo-Fluid Science and Engineering, Ministry of Education, School of Energy and Power Engineering, Xi’an Jiaotong University;

Key Laboratory of Thermo-Fluid Science and Engineering, Ministry of Education, School of Energy and Power Engineering, Xi’an Jiaotong University;

Key Laboratory of Thermo-Fluid Science and Engineering, Ministry of Education, School of Energy and Power Engineering, Xi’an Jiaotong University;

Key Laboratory of Thermo-Fluid Science and Engineering, Ministry of Education, School of Energy and Power Engineering, Xi’an Jiaotong University;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Field synergy number; Field synergy principle; Entransy dissipation extremum principle; Fin-and-tube surfaces; Composite porous materials; Fluid flow and heat transfer characteristics;

机译：场协同数;场协同原理;瞬态耗散极值原理;管表面;复合多孔材料;流体流动和传热特性;

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1. Study on the consistency between field synergy principle and entransy dissipation extremum principle [J] . Zhi-Qiang Yu, Peng Wang, Wen-Jing Zhou, International Journal of Heat and Mass Transfer . 2018,第JANa期

机译：场协同原理与穿越耗散极值原理的一致性研究
2. Numerical studies on the inherent interrelationship between field synergy principle and entransy dissipation extreme principle for enhancing convective heat transfer [J] . Ya-Ling He, Wen-Quan Tao International Journal of Heat and Mass Transfer . 2014,第jula期

机译：场协同原理与瞬态耗散极限原理之间固有内在联系的数值研究
3. Entransy dissipation analysis of interfacial convection enhancing gas–liquid mass transfer process based on field synergy principle [J] . Dong Li, Aiwu Zeng 中国化学工程学报（英文版） . 2019,第008期

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8. Dual Extremum Principles for Non-Negative Unsymmetric Operators. [R] . herrera, ismael sewell,michael j. 1977

机译：非负非对称算子的对偶极值原理。

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