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Heat Transfer Engineering Volume 29, 2008 - Issue 12
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Mechanistic Modeling of the Convective Heat Transfer Coefficient in Gas-Liquid Intermittent Flows

Fernando A. Franca Department of Petroleum Engineering, State University of Campinas, San Paulo, Brazil
,
Antonio C. Bannwart Department of Petroleum Engineering, State University of Campinas, San Paulo, Brazil
,
Ricardo M. T. Camargo CENPES/UN-RIO-Petrobras, Rio de Janeiro, Brazil
&
Marcelo A. L. Gonçalves CENPES/UN-RIO-Petrobras, Rio de Janeiro, Brazil
Pages 984-998 | Published online: 14 Jul 2010

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PranavV. Godbole, ClementC. Tang & AfshinJ. Ghajar. (2011) Comparison of Void Fraction Correlations for Different Flow Patterns in Upward Vertical Two-Phase Flow. Heat Transfer Engineering 32:10, pages 843-860.
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AfshinJ. Ghajar & ClementC. Tang. (2010) Importance of Non-Boiling Two-Phase Flow Heat Transfer in Pipes for Industrial Applications. Heat Transfer Engineering 31:9, pages 711-732.
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María Esther Palacios-Lorenzo & José Daniel Marcos. (2024) Downsizing strategy for an air-cooled indirect-fired single-effect ammonia-water absorption chiller in part-load operation in hot climates. Case Studies in Thermal Engineering 53, pages 103911.
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Chuanshuai Dong & Takashi Hibiki. (2023) Heat transfer model for downward two-component two-phase flows in inclined pipes. Applied Thermal Engineering 235, pages 121367.
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Chuanshuai Dong, Ronghui Qi & Lizhi Zhang. (2022) Mechanistic modeling of flow and heat transfer in vertical upward two-phase slug flows. Physics of Fluids 34:1.
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Mizra Mohammad Shah. 2021. Two‐Phase Heat Transfer. Two‐Phase Heat Transfer 279 310 .
Mariana M. Grigoleto, Carlos L. Bassani, Marco G. Conte, Cristiane Cozin, Fausto A. Barbuto & Rigoberto E.M. Morales. (2021) Heat transfer modeling of non-boiling gas-liquid slug flow using a slug tracking approach. International Journal of Heat and Mass Transfer 165, pages 120664.
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Chuanshuai Dong, Lin Lu & Xin Wang. (2019) Experimental investigation on non-boiling heat transfer of two-component air-oil and air-water slug flow in horizontal pipes. International Journal of Multiphase Flow 119, pages 28-41.
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Shuzhe Shi, Xiaodong Wu, Guoqing Han, Ziyao Zhong, Zhun Li & Ke Sun. (2019) Numerical Slug Flow Model of Curved Pipes with Experimental Validation. ACS Omega 4:12, pages 14831-14840.
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Mirza M. Shah. (2018) General Correlation for Heat Transfer to Gas–Liquid Flow in Vertical Channels. Journal of Thermal Science and Engineering Applications 10:6.
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Mirza M. Shah. (2018) Improved General Correlation for Heat Transfer During Gas–Liquid Flow in Horizontal Tubes. Journal of Thermal Science and Engineering Applications 10:5.
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Luis M. M. Rosas, Carlos L. Bassani, Rafael F. Alves, Fábio A. Schneider, Moisés A. Marcelino Neto, Rigoberto E. M. Morales & Amadeu K. Sum. (2018) Measurements of horizontal three‐phase solid‐liquid‐gas slug flow: Influence of hydrate‐like particles on hydrodynamics. AIChE Journal 64:7, pages 2864-2880.
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Carlos L. Bassani, Fausto A.A. Barbuto, Amadeu K. Sum & Rigoberto E.M. Morales. (2018) A three-phase solid-liquid-gas slug flow mechanistic model coupling hydrate dispersion formation with heat and mass transfer. Chemical Engineering Science 178, pages 222-237.
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Carlos L. Bassani, Fausto A.A. Barbuto, Amadeu K. Sum & Rigoberto E.M. Morales. (2017) Modeling the effects of hydrate wall deposition on slug flow hydrodynamics and heat transfer. Applied Thermal Engineering 114, pages 245-254.
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A. Fershtman, L. Shemer & D. Barnea. (2016) Instantaneous heat transfer rate around consecutive Taylor bubbles. International Journal of Heat and Mass Transfer 95, pages 865-873.
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Carlos L. Bassani, Fernando H.G. Pereira, Fausto A.A. Barbuto & Rigoberto E.M. Morales. (2016) Modeling the scooping phenomenon for the heat transfer in liquid–gas horizontal slug flows. Applied Thermal Engineering 98, pages 862-871.
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V. Babin, L. Shemer & D. Barnea. (2015) Local instantaneous heat transfer around a rising single Taylor bubble. International Journal of Heat and Mass Transfer 89, pages 884-893.
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César D. Perea Medina, Carlos L. Bassani, Cristiane Cozin, Fausto Arinos de A. Barbuto, Silvio L.M. Junqueira & Rigoberto E.M. Morales. (2015) Numerical simulation of the heat transfer in fully developed horizontal two-phase slug flows using a slug tracking method. International Journal of Thermal Sciences 88, pages 258-266.
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Eugenio F. Simões, João N.E. Carneiro & Angela O. Nieckele. (2014) Numerical prediction of non-boiling heat transfer in horizontal stratified and slug flow by the Two-Fluid Model. International Journal of Heat and Fluid Flow 47, pages 135-145.
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