Sung-Min Kim is an Associate Professor at Sungkyunkwan University. His research interests include thermal fluid science and fluid machinery. degree in Mechanical Engineering from Sungkyunkwan University, Korea, in 2015. Hyeon-Seok Seo is a Principal Researcher at Flow and Thermal Simulation Cell of Hyundai Mobis. His research interests include two-phase flow and heat transfer, and thermal fluid science. degree in Mechanical Engineering from Sungkyunkwan University, Korea, in 2020. Jun-Suk Youn is a researcher at R&D Center of Wonik Holdings Co., Ltd. His research interests include two-phase flow and heat transfer, and high-heat-flux and high performance heat transfer system. degree in Mechanical Engineering from Andong National University, Korea, in 2019. Santhosh Senguttuvan is currently pursuing his doctoral studies at Sungkyunkwan University, Korea. Youngs, Time-dependent multi-material flow with large fluid distortion, Numerical Methods Fluid Dynamics, Academic Press, New York (1982). van Leer, Towards the ultimate conservative difference scheme V A second-order sequel to Godunov’s method, J. Patankar, Numerical Heat Transfer and Fluid Flow, McGraw-Hill, New York (1980).ī. Issa, Solution of the implicitly discretised fluid flow equations by operator-splitting, J. Zemach, A continuum method for modeling surface tension, J. Menter, Two-equation eddy-viscosity turbulence models for engineering applications, AIAA J., 32(8) (1994) 1598–1605. Heat Mass Transf., 81 (2015) 52–62.ĪNSYS FLUENT 18.0 in Workbench User’s Guide, ANSYS Inc., Canonsburg, PA (2017).į. Mudawar, Computational modeling of turbulent evaporating falling films, Int. Mudawar, Theoretical model for local heat transfer coefficient for annular flow boiling in circular mini/microchannels, Int. Mudawar, Theoretical model for annular flow condensation in rectangular micro-channels, Int. Nasif, Numerical simulation of two-phase flow regime in horizontal pipeline and its validation, Int. Park, Experimental visualization and numerical simulation of liquid-gas two-phase flows in a horizontal pipe, ASME Int. Ali, CFD prediction of stratified and intermittent gasliquid two-phase turbulent pipe flow using RANS, Ph.D Thesis, Univ. Khasani, CFD studies on the gas-liquid plug two-phase flow in a horizontal pipe, J. Vallée, Experiments and numerical simulations of horizontal two-phase flow regimes using an interfacial area density model, J. Alsairafi, CFD and artificial neural network modeling of two-phase flow pressure drop, Int. Marin, CFD modeling of all gas-liquid and vapor-liquid flow regimes predicted by the Baker chart, Chem. Jia, Experimental and numerical investigations on horizontal oil-gas flow, J. Nigam, CFD modeling of flow profiles and interfacial phenomena in two-phase flow in pipes, Chem. Nichols, Volume of fluid (VOF) method for the dynamics of free boundaries, J. Banerjee, Transition of plug to slug flow and associated fluid dynamics, Int. Liejin, Modeling of bubble shape in horizontal and inclined tubes, Prog. Hanratty, A model for stationary slugs, Int. Hanratty, A definition of gas-liquid plug flow in horizontal pipes, Int. Banerjee, On intermittent flow characteristics of gas-liquid two-phase flow, Nucl. Jepson, Slug flow characteristics and their effect on corrosion rates in horizontal oil and gas pipelines, Proc. Ahmed, Nuclear Power- Practical Aspects, InTech, New York, USA (2012) Chapter 6, 153–178.
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