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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

Some Aspects of Plate Fin-and-Tube Heat Exchangers: With and Without Louvers

巻 6, 発行 5, 1999, pp. 357-368
DOI: 10.1615/JEnhHeatTransf.v6.i5.30
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要約

The paper presents the results of an experimental study on the air-side performance for two-specific louver fin patterns and their plain fin counterpart. The corresponding longitudinal tube pitches for the test samples were 19.05 and 22 mm, and the nominal tube diameter for the test samples is 9.52 mm. For plain fin pattern, the effect of longitudinal tube pitch on the air-side performance is negligible whereas the heat transfer performance increases with decrease of fin pitch. For louver fin geometry, both longitudinal tube pitch and fin pitch shows very small effect on the heat transfer performance. However, it is found that the heat transfer coefficients for Fp = 1.78 mm are approximately 0 ∼ 10% higher than those of Fp = 1.21 mm and Fp = 2.42 mm. In addition, compared with P1 = 19.05 mm, significant increase of friction factors were observed for the louver fin pattern.

によって引用された
  1. Wang Chi-Chuan, Chen Kuan-Yu, Liaw Jane-Sunn, Tseng Chih-Yung, An experimental study of the air-side performance of fin-and-tube heat exchangers having plain, louver, and semi-dimple vortex generator configuration, International Journal of Heat and Mass Transfer, 80, 2015. Crossref

  2. Wang Chi-Chuan, Tao Wei-Han, Chang Chun-Jung, An investigation of the airside performance of the slit fin-and-tube heat exchangers, International Journal of Refrigeration, 22, 8, 1999. Crossref

  3. Li Hongzhi, Wang Haijun, Yao Mingyu, Zhang Lixin, Gu Hongfang, Nie Jianping, PIV and thermal-vision experimental and numerical investigation on the airside performance of slotted fin surfaces, International Journal of Heat and Mass Transfer, 82, 2015. Crossref

  4. Wang Chi-Chuan, Chen Kuan-Yu, Lin Yur-Tsai, Investigation of the semi-dimple vortex generator applicable to fin-and-tube heat exchangers, Applied Thermal Engineering, 88, 2015. Crossref

  5. Han Hui, He Ya-Ling, Li Yin-Shi, Wang Yu, Wu Ming, A numerical study on compact enhanced fin-and-tube heat exchangers with oval and circular tube configurations, International Journal of Heat and Mass Transfer, 65, 2013. Crossref

  6. Gorman J.M., Carideo M., Sparrow E.M., Abraham J.P., Heat transfer and pressure drop comparison of louver- and plain-finned heat exchangers where one fluid passes through flattened tubes, Case Studies in Thermal Engineering, 5, 2015. Crossref

  7. Wang Chi-Chuan, Lo Jerry, Lin Yur-Tsai, Liu Min-Sheng, Flow visualization of wave-type vortex generators having inline fin-tube arrangement, International Journal of Heat and Mass Transfer, 45, 9, 2002. Crossref

  8. Wang Chi-Chuan, Chi Kuan-Yu, Chang Chun-Jung, Heat transfer and friction characteristics of plain fin-and-tube heat exchangers, part II: Correlation, International Journal of Heat and Mass Transfer, 43, 15, 2000. Crossref

  9. Wang Chi-Chuan, Lo Jerry, Lin Yur-Tsai, Wei Chung-Szu, Flow visualization of annular and delta winlet vortex generators in fin-and-tube heat exchanger application, International Journal of Heat and Mass Transfer, 45, 18, 2002. Crossref

  10. Goldstein R.J., Eckert E.R.G., Ibele W.E., Patankar S.V., Simon T.W., Kuehn T.H., Strykowski P.J., Tamma K.K., Bar-Cohen A., Heberlein J.V.R., Davidson J.H., Bischof J., Kulacki F.A., Kortshagen U., Garrick S., Heat transfer – a review of 1999 literature, International Journal of Heat and Mass Transfer, 44, 19, 2001. Crossref

  11. Du Yuan-Jan, Wang Chi-Chuan, An experimental study of the airside performance of the superslit fin-and-tube heat exchangers, International Journal of Heat and Mass Transfer, 43, 24, 2000. Crossref

  12. Wang Chi-Chuan, Chi Kuan-Yu, Heat transfer and friction characteristics of plain fin-and-tube heat exchangers, part I: new experimental data, International Journal of Heat and Mass Transfer, 43, 15, 2000. Crossref

  13. Nuntaphan A., Tiansuwan J., Kiatsiriroat T., Enhancement of heat transport in thermosyphon air preheater at high temperature with binary working fluid: A case study of TEG–water, Applied Thermal Engineering, 22, 3, 2002. Crossref

  14. Erbay L. Berrin, Uğurlubilek Nihal, Altun Özge, Doğan Bahadır, Numerical Investigation of the Air-Side Thermal Hydraulic Performance of a Louvered-Fin and Flat-Tube Heat Exchanger at Low Reynolds Numbers, Heat Transfer Engineering, 38, 6, 2017. Crossref

  15. Zhong Tianming, Chen Ying, Yang Qingcheng, Song Mengjie, Luo Xianglong, Xu Junjun, Zheng Wenxian, Jia Lisi, Experimental investigation on the thermodynamic performance of double-row liquid–vapor separation microchannel condenser, International Journal of Refrigeration, 67, 2016. Crossref

  16. Wang Chi-Chuan, Lin Yur-Tsai, Lee Chi-Juan, Heat and momentum transfer for compact louvered fin-and-tube heat exchangers in wet conditions, International Journal of Heat and Mass Transfer, 43, 18, 2000. Crossref

  17. Awais Muhammad, Bhuiyan Arafat A., Heat and mass transfer for compact heat exchanger (CHXs) design: A state-of-the-art review, International Journal of Heat and Mass Transfer, 127, 2018. Crossref

  18. Zhou G., Ye Y., Zuo W., Zhou X., Wu X., Fast and efficient prediction of finned-tube heat exchanger performance using wet-dry transformation method with nominal data, Applied Thermal Engineering, 145, 2018. Crossref

  19. Qasem Naef A.A., Zubair Syed M., Compact and microchannel heat exchangers: A comprehensive review of air-side friction factor and heat transfer correlations, Energy Conversion and Management, 173, 2018. Crossref

  20. Saha Sujoy Kumar, Ranjan Hrishiraj, Emani Madhu Sruthi, Bharti Anand Kumar, Introduction, in Heat Transfer Enhancement in Plate and Fin Extended Surfaces, 2020. Crossref

  21. Zhang Jiawen, Liu Jianhua, Zhang Liang, Liu Qi, Wu Qingqing, Effect of ambient pressure on air side heat transfer and flow characteristics of plain finned tube heat exchanger, International Journal of Heat and Mass Transfer, 158, 2020. Crossref

  22. Wanglertpanich Kiatbodin, Kittichaikarn Chawalit, Heat transfer efficiency enhancement using zigzag louvered fin, Numerical Heat Transfer, Part A: Applications, 79, 4, 2021. Crossref

  23. Välikangas Turo, Folkersma Mikko, Dal Maso Miikka, Keskitalo Tuomo, Peltonen Petteri, Vuorinen Ville, Parametric CFD study for finding the optimal tube arrangement of a fin-and-tube heat exchanger with plain fins in a marine environment, Applied Thermal Engineering, 200, 2022. Crossref

  24. Wang Chi-Chuan, On the Airside Performance of Fin-and-Tube Heat Exchangers, in Heat Transfer Enhancement of Heat Exchangers, 1999. Crossref

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