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Journal of Enhanced Heat Transfer

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

Indexed in

Applications of the Field Synergy Principle in Developing New Type Heat Transfer Enhanced Surfaces

巻 11, 発行 4, 2004, pp. 435-452
DOI: 10.1615/JEnhHeatTransf.v11.i4.210
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要約

In this keynote lecture, the basic idea of the field synergy principle proposed by Guo and its recent advances is first briefly reviewed, followed by detailed discussion on how to apply this principle for developing new types of heat transfer enhancement surfaces. Focus is concentrated on the enhancement of airside heat transfer processes. Four interesting examples are provided, which are the major achievements of our research group in the past 3 years. These are (1) the finding of the optimal attack angle for an array of obliquely positioned plates; (2) the development of a longitudinally finned tube with a blocked center; (3) the effect of the strip location on the enhancement of heat transfer; and (4) a new type of slotted fin surface that can significantly enhance air heat transfer while leading to only a mild increase in pressure drop. The application examples show that the field synergy principle is a powerful tool in the development of new types of heat transfer enhancement surfaces.

によって引用された
  1. Chen Qun, Ren Jianxun, Guo Zengyuan, Field synergy analysis and optimization of decontamination ventilation designs, International Journal of Heat and Mass Transfer, 51, 3-4, 2008. Crossref

  2. Fan Aiwu, Deng Junjie, Guo Jian, Liu Wei, A numerical study on thermo-hydraulic characteristics of turbulent flow in a circular tube fitted with conical strip inserts, Applied Thermal Engineering, 31, 14-15, 2011. Crossref

  3. Wei Liu, Zhichun Liu, Tingzhen Ming, Zengyuan Guo, Physical quantity synergy in laminar flow field and its application in heat transfer enhancement, International Journal of Heat and Mass Transfer, 52, 19-20, 2009. Crossref

  4. 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 2004 literature, International Journal of Heat and Mass Transfer, 53, 21-22, 2010. Crossref

  5. Jin Yu, Tang Gui-Hua, He Ya-Ling, Tao Wen-Quan, Parametric study and field synergy principle analysis of H-type finned tube bank with 10 rows, International Journal of Heat and Mass Transfer, 60, 2013. Crossref

  6. Yu Zhi-Qiang, Feng Yong-Liang, Zhou Wen-Jing, Jin Yu, Li Ming-Jie, Li Zeng-Yao, Tao Wen-Quan, Study on flow and heat transfer characteristics of composite porous material and its performance analysis by FSP and EDEP, Applied Energy, 112, 2013. Crossref

  7. Chen Qun, Liang Xin-Gang, Guo Zeng-Yuan, Entransy theory for the optimization of heat transfer – A review and update, International Journal of Heat and Mass Transfer, 63, 2013. Crossref

  8. He Ya-Ling, Tao Wen-Quan, Numerical studies on the inherent interrelationship between field synergy principle and entransy dissipation extreme principle for enhancing convective heat transfer, International Journal of Heat and Mass Transfer, 74, 2014. Crossref

  9. Li Xin, He Ya-Ling, Tao Wen-Quan, Analysis and extension of field synergy principle (FSP) for compressible boundary-layer heat transfer, International Journal of Heat and Mass Transfer, 84, 2015. Crossref

  10. Jin Yu, Yu Zhi-Qiang, Tang Gui-Hua, He Ya-Ling, Tao Wen-Quan, Parametric study and multiple correlations of an H-type finned tube bank in a fully developed region, Numerical Heat Transfer, Part A: Applications, 70, 1, 2016. Crossref

  11. Yu Zhi-Qiang, Wang Peng, Zhou Wen-Jing, Li Zeng-Yao, Tao Wen-Quan, Study on the consistency between field synergy principle and entransy dissipation extremum principle, International Journal of Heat and Mass Transfer, 116, 2018. Crossref

  12. Ming Tingzhen, Peng Chong, Gong Tingrui, Li Zhengtong, Filed Synergy Analysis on Pollutant Dispersion in Built Environment, in Pollutant Dispersion in Built Environment, 2017. Crossref

  13. He Hongwen, Jia Hui, Huo Weiwei, Sun Fengchun, Field Synergy Analysis and Optimization of the Thermal Behavior of Lithium Ion Battery Packs, Energies, 10, 1, 2017. Crossref

  14. He Yan, Liu Li, Li Pengxiao, Ma Lianxiang, Experimental study on heat transfer enhancement characteristics of tube with cross hollow twisted tape inserts, Applied Thermal Engineering, 131, 2018. Crossref

  15. Zhang Xueyan, Liu Xin, Chen Bin, Zhao Joe R., Sang Yizhou, Numerical simulation of heat transfer process of the raised floor heating system integrated with a burning cave, Renewable Energy, 132, 2019. Crossref

  16. 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

  17. Zhang Kai, Li Ming-Jia, Wang Fei-Long, He Ya-Ling, Experimental and numerical investigation of natural convection heat transfer of W-type fin arrays, International Journal of Heat and Mass Transfer, 152, 2020. Crossref

  18. Fan A.W., Deng J.J., Nakayama A., Liu W., Parametric study on turbulent heat transfer and flow characteristics in a circular tube fitted with louvered strip inserts, International Journal of Heat and Mass Transfer, 55, 19-20, 2012. Crossref

  19. Meng Huibo, Meng Tong, Yu Yanfang, Wang Zongyong, Wu Jianhua, Experimental and numerical investigation of turbulent flow and heat transfer characteristics in the Komax static mixer, International Journal of Heat and Mass Transfer, 194, 2022. Crossref

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