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Journal of Enhanced Heat Transfer
Founding Advisory Editor: Arthur E. Bergles (open in a new tab)

年間 8 号発行

ISSN 印刷: 1065-5131

ISSN オンライン: 1563-5074

The Impact Factor measures the average number of citations received in a particular year by papers published in the journal during the two preceding years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) IF: 2.3 To calculate the five year Impact Factor, citations are counted in 2017 to the previous five years and divided by the source items published in the previous five years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) 5-Year IF: 1.8 The Immediacy Index is the average number of times an article is cited in the year it is published. The journal Immediacy Index indicates how quickly articles in a journal are cited. Immediacy Index: 0.2 The Eigenfactor score, developed by Jevin West and Carl Bergstrom at the University of Washington, is a rating of the total importance of a scientific journal. Journals are rated according to the number of incoming citations, with citations from highly ranked journals weighted to make a larger contribution to the eigenfactor than those from poorly ranked journals. Eigenfactor: 0.00037 The Journal Citation Indicator (JCI) is a single measurement of the field-normalized citation impact of journals in the Web of Science Core Collection across disciplines. The key words here are that the metric is normalized and cross-disciplinary. JCI: 0.6 SJR: 0.433 SNIP: 0.593 CiteScore™:: 4.3 H-Index: 35

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Field-Coordination Analysis and Numerical Study on Turbulent Convective Heat Transfer Enhancement

巻 12, 発行 1, 2005, pp. 73-84
DOI: 10.1615/JEnhHeatTransf.v12.i1.50
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Ji-An Meng
Key Laboratory for Thermal Science and Power Engineering of Ministry of Education School of Aerospace, Tsinghua University
Ze-Jing Chen
Department of Engineering Mechanics, Education Ministry Key Lab of Enhanced Heat Transfer and Energy Conservation, Tsinghua University, Beijing 100084, China
Zhi-Xin Li
Key Laboratory for Thermal Science and Power Engineering of Ministry of Education School of Aerospace, Tsinghua University; Department of Engineerig Mechanics, Tsinghua University, Beijing 100084, China
Zeng-Yuan Guo
Key Laboratory for Thermal Science and Power Engineering of Ministry of Education, Department of Engineering Mechanics, Tsinghua University, Haidian District, Beijing 100084, China
Professor Guo was born on 28 February 1936 in Jiangsu Province, China. He graduated from Tsinghua University in 1959. He has worked in Tsinghua University, Beijing, China ever since, a tenure of over 50 years. Professor Guo’s research has been mainly concerned with thermofluid mechanics, micro/nanoscale heat transfer, thermal system optimization and efficient thermal transport. He developed the concepts of thermal drag, thermal drive, thermal displacement, and thermal instability which were presented in his keynote lectures at the 8th and 9th International Heat Transfer Conferences and in a chapter on "Thermally Induced Effects on Fluid Flow" in the Annual Review of Heat Transfer, vol. 5, 1994. Professor Guo’s research is also related to the Microscale and nanoscale heat transfer. In his keynote lecture at the International Conference on Transport Phenomena at Microscale in Canada in 2000 and at the 12th International Heat Transfer Conferences in France in 2002, Professor Guo first revealed that the microscale heat transfer size effect on the flow and heat transfer correlations is attributed to the variation of the dominant factors, such as the flow compressibility, surface roughness, and axial conduction in the tube wall, as the scale decreases even though the continuum assumption is still applicable. He was awarded the ICMM 2005 Lifetime Contribution Award in the field of Heat and Mass Transfer due to his pioneering contributions through original research related to micro/nanoscale heat transfer. In the last decade, Professor Guo has mainly focused his research of effective utilization of thermal energy. He proposed the field synergy principle for the optimization of convective heat transfer and introduced the physical quantity "entransy" to represent the physical nature of the field synergy principle, by analogy between thermal and electrical transport. The dissipation of entransy can be used to define the efficiencies of heat transfer processes and to establish the extremum principle of entransy dissipation for heat transfer optimization because it represents the irreversibility of heat transfer not related to heat-work conversions. In recent years, Professor Guo has focused his interest on the nature of heat. He proposed the Thermomass theory, using Einstein’s mass-energy relevance and proposed a general heat conduction law that includes various heat conduction models, such as the Fourier model and C-V model as special cases.

要約

The dependence of the Nusselt number on the time-averaged velocity and temperature fields was derived for turbulent convective heat transfer to show that the field coordination principle is also suitable for turbulent convective heat transfer. The features of convective heat transfer in tubes and the field coordination principle was used to develop an enhanced heat transfer tube—the alternating elliptical axis tube. The numerical and experimental results show that heat transfer is markedly enhanced with less additional flow drag than the other enhanced tube designs.

によって引用された

  1. Xie ZhiHui, Chen LinGen, Sun FengRui, Constructal optimization of twice Y-shaped assemblies of fins by taking maximum thermal resistance minimization as objective, Science China Technological Sciences, 53, 10, 2010. Crossref

  2. Xiao QingHua, Chen LinGen, Sun FengRui, Constructal entransy dissipation rate minimization for umbrella-shaped assembly of cylindrical fins, Science China Technological Sciences, 54, 1, 2011. Crossref

  3. Xie ZhiHui, Chen LinGen, Sun FengRui, Comparative study on constructal optimizations of T-shaped fin based on entransy dissipation rate minimization and maximum thermal resistance minimization, Science China Technological Sciences, 54, 5, 2011. Crossref

  4. Chen Qun, Ren Jianxun, Meng Ji-an, Field synergy equation for turbulent heat transfer and its application, International Journal of Heat and Mass Transfer, 50, 25-26, 2007. Crossref

  5. Goldstein R.J., Ibele W.E., Patankar S.V., Simon T.W., Kuehn T.H., Strykowski P.J., Tamma K.K., Heberlein J.V.R., Davidson J.H., Bischof J., Kulacki F.A., Kortshagen U., Garrick S., Srinivasan V., Ghosh K., Mittal R., Heat transfer—A review of 2005 literature, International Journal of Heat and Mass Transfer, 53, 21-22, 2010. Crossref

  6. Xu Xiongwen, Liu Jinping, Cao Le, Pang Weiqiang, Automatically varying the composition of a mixed refrigerant solution for single mixed refrigerant LNG (liquefied natural gas) process at changing working conditions, Energy, 64, 2014. Crossref

  7. Bi C., Tang G.H., Tao W.Q., Heat transfer enhancement in mini-channel heat sinks with dimples and cylindrical grooves, Applied Thermal Engineering, 55, 1-2, 2013. Crossref

  8. Wang JunBo, Liu ZhiChun, Liu Wei, Evaluation of convective heat transfer in a tube based on local exergy destruction rate, Science China Technological Sciences, 59, 10, 2016. Crossref

  9. Xia Li, Feng Yuanli, Sun Xiaoyan, Xiang Shuguang, A novel method based on entransy theory for setting energy targets of heat exchanger network, Chinese Journal of Chemical Engineering, 25, 8, 2017. Crossref

  10. Chen Xi, Zhao Tian, Zhang Meng-Qi, Chen Qun, Entropy and entransy in convective heat transfer optimization: A review and perspective, International Journal of Heat and Mass Transfer, 137, 2019. Crossref

  11. Li Zhi-Xin, Guo Zeng-Yuan, Optimization Principles for Heat Convection, in Advances in Transport Phenomena 2010, 2, 2011. Crossref

  12. Cui Wenzheng, Mao Dongxu, Lin Bo, Yang Jianguo, Field synergy analysis on the mechanism of heat transfer enhancement by using nanofluids, Case Studies in Thermal Engineering, 16, 2019. Crossref

  13. Huang Pingnan, Pan Minqiang, Secondary heat transfer enhancement design of variable cross-section microchannels based on entransy analysis, Renewable and Sustainable Energy Reviews, 141, 2021. Crossref

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1078 記事の閲覧数 78 記事のダウンロード 13 Crossref 引用数 Google
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