Print Email Facebook Twitter Interface Investigation of Core-annular Flow Title Interface Investigation of Core-annular Flow Author Jia, Kangjun (TU Delft Mechanical, Maritime and Materials Engineering; TU Delft Fluid Mechanics) Contributor Henkes, R.A.W.M. (mentor) Degree granting institution Delft University of Technology Programme Mechanical Engineering | Energy and Process Technology Date 2018-11-26 Abstract The transport of highly-viscous oil in the core-annular flow regime in a horizontal pipe is investigated with a numerical simulation study. In this flow type the viscous oil is lubricated by a water annulus along the pipe wall. The Launder-Sharma low-Reynolds number k-ε turbulence model is used with the Volume-of-Fluid solver in interFOAM. Three types of simulations were carried out: 3D multiphase flow in a pipe section, 2D multiphase flow in an axi-symmetric pipe section (wedge-shaped section), in which gravity is ignored, and 2D single phase water flow in the annulus, using an imposed wavy boundary. This enabled to study the effect of the viscous oil core on the annulus behaviour, such as the turbulence structures and possible dispersion of oil into the water annulus. In particular the rationale of a 'solid-core' assumption is discussed through the comparison between simulations for the annulus that use the 'interface-bounded' flow and 'wall-bounded' flow. A main finding of this study is that the use of the Compressive Volume of Fluid (CVOF) method in the multiphase simulations gives spurious dispersion of oil in the water annulus. This is the primary cause of the over-prediction of the pressure gradient simulations carried out in a previous study. Therefore, the Coupled Level-Set Volume of Fluid (CLSVOF) interface capturing method has been implemented in the 3D multiphase model. The new predictions show a good agreement with the experimental data at 20, 30, 40℃ (corresponding to a descrease in the oil viscosity). The oil dispersion in the annulus region close to the wall is diminished by using the new method while the sharpness of the interface is not improved. The CLSVOF interface capturing method is concluded to be an efficient and reliable interface capturing method for the numerical prediction of core-annular flow. Subject Interface CapturingCoupled Level-Set Volume of Fluid MethodCore-annular flowCFD To reference this document use: http://resolver.tudelft.nl/uuid:0bef658b-ca1c-4edb-baf9-98263b88fd7b Part of collection Student theses Document type master thesis Rights © 2018 Kangjun Jia Files PDF Interface_Investigation_o ... r_Flow.pdf 17.31 MB Close viewer /islandora/object/uuid:0bef658b-ca1c-4edb-baf9-98263b88fd7b/datastream/OBJ/view