Print Email Facebook Twitter Computational Modeling of Gas Liquid Interfaces Using Different Multiphase Models Part of: ECCOMAS CFD 2006: Proceedings of the European Conference on Computational Fluid Dynamics· list the conference papers Title Computational Modeling of Gas Liquid Interfaces Using Different Multiphase Models Author Ayub Akhtar, M. Sohaib, M. Rafique, M. Date 2006-09-05 Abstract A time dependent Computational Fluid Dynamics analysis of gas jets impinging onto liquid pools has been conducted. The aim of the study is to obtain a better understanding of highly complex, and industrially relevant flows in jetting system. Three different multiphase models, i.e., The Eulerian model, the volume of fluid model and the mixture model are used to analyze the surface deformations namely dimpling, splashing and penetration. The Standard k-? model is used to incorporate the Turbulence in the continuous phase. Two-dimensional axisymmetric geometries with different dimensions have been used in the study. Simulations are performed using commercial CFD code Fluent 6.1. PISO (pressure- implicit with splitting of operators) algorithm was employed to compute the pressure velocity coupling. The computed results are compared with experimental and theoretical data reported in the literature. Also the results of the study highlight and compare the discrepancies between the three multiphase models in capturing the flow structure and cavities formed at gas-liquid interfaces. Subject free surface flowsmultiphase modelinggas jettingmetallurgical industryComputational Fluid Dynamics To reference this document use: http://resolver.tudelft.nl/uuid:5febf87f-89a0-4b31-b3c7-e1dce406e6a7 Part of collection Conference proceedings Document type conference paper Rights (c) 2006 Ayub Akhtar, M.; Sohaib, M.; Rafique, M. Files PDF Ayub.pdf 335.14 KB Close viewer /islandora/object/uuid:5febf87f-89a0-4b31-b3c7-e1dce406e6a7/datastream/OBJ/view