Air side heat transfer coefficient in plate finned tube heat exchangers
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Mihailović, MilošMilovančević, Uroš
Genić, Srbislav
Jaćimović, Branislav M.
Otović, Milena
Kolendić, Petar
Article (Published version)
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In order to establish a reliable procedure for estimation of heat transfer coefficient, experiments on plate finned tube heat exchangers have been conducted on five exchangers. Using own and previously published experimental data databank of 969 working regimes, a new correlation was formed. Correlation is based on hydraulic diameter and porous velocity and on the ratio of characteristic surfaces of the finned tube bundle. Statistical parameters of a new correlation for estimation of heat transfer coefficient are very good, and correlation covers a wide range of geometrical and other parameters of heat exchangers that are industrially important.
Keywords:
volumetric porosity / plate fins / heat transfer / Heat exchangers / finned tubeSource:
Experimental Heat Transfer, 2020, 33, 4, 388-399Publisher:
- Taylor & Francis Inc, Philadelphia
DOI: 10.1080/08916152.2019.1656298
ISSN: 0891-6152
WoS: 000483730100001
Scopus: 2-s2.0-85071146653
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Mašinski fakultetTY - JOUR AU - Mihailović, Miloš AU - Milovančević, Uroš AU - Genić, Srbislav AU - Jaćimović, Branislav M. AU - Otović, Milena AU - Kolendić, Petar PY - 2020 UR - https://machinery.mas.bg.ac.rs/handle/123456789/3274 AB - In order to establish a reliable procedure for estimation of heat transfer coefficient, experiments on plate finned tube heat exchangers have been conducted on five exchangers. Using own and previously published experimental data databank of 969 working regimes, a new correlation was formed. Correlation is based on hydraulic diameter and porous velocity and on the ratio of characteristic surfaces of the finned tube bundle. Statistical parameters of a new correlation for estimation of heat transfer coefficient are very good, and correlation covers a wide range of geometrical and other parameters of heat exchangers that are industrially important. PB - Taylor & Francis Inc, Philadelphia T2 - Experimental Heat Transfer T1 - Air side heat transfer coefficient in plate finned tube heat exchangers EP - 399 IS - 4 SP - 388 VL - 33 DO - 10.1080/08916152.2019.1656298 ER -
@article{ author = "Mihailović, Miloš and Milovančević, Uroš and Genić, Srbislav and Jaćimović, Branislav M. and Otović, Milena and Kolendić, Petar", year = "2020", abstract = "In order to establish a reliable procedure for estimation of heat transfer coefficient, experiments on plate finned tube heat exchangers have been conducted on five exchangers. Using own and previously published experimental data databank of 969 working regimes, a new correlation was formed. Correlation is based on hydraulic diameter and porous velocity and on the ratio of characteristic surfaces of the finned tube bundle. Statistical parameters of a new correlation for estimation of heat transfer coefficient are very good, and correlation covers a wide range of geometrical and other parameters of heat exchangers that are industrially important.", publisher = "Taylor & Francis Inc, Philadelphia", journal = "Experimental Heat Transfer", title = "Air side heat transfer coefficient in plate finned tube heat exchangers", pages = "399-388", number = "4", volume = "33", doi = "10.1080/08916152.2019.1656298" }
Mihailović, M., Milovančević, U., Genić, S., Jaćimović, B. M., Otović, M.,& Kolendić, P.. (2020). Air side heat transfer coefficient in plate finned tube heat exchangers. in Experimental Heat Transfer Taylor & Francis Inc, Philadelphia., 33(4), 388-399. https://doi.org/10.1080/08916152.2019.1656298
Mihailović M, Milovančević U, Genić S, Jaćimović BM, Otović M, Kolendić P. Air side heat transfer coefficient in plate finned tube heat exchangers. in Experimental Heat Transfer. 2020;33(4):388-399. doi:10.1080/08916152.2019.1656298 .
Mihailović, Miloš, Milovančević, Uroš, Genić, Srbislav, Jaćimović, Branislav M., Otović, Milena, Kolendić, Petar, "Air side heat transfer coefficient in plate finned tube heat exchangers" in Experimental Heat Transfer, 33, no. 4 (2020):388-399, https://doi.org/10.1080/08916152.2019.1656298 . .