Derivation of Jump Conditions in Multiphase Incompressible Flows with Singular Forces

Harahap, Caesar O. and Miura, Hideaki (2008) Derivation of Jump Conditions in Multiphase Incompressible Flows with Singular Forces. Journal of Plasma and Fusion Research SERIES. ISSN 1883-9630

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Abstract

For conducting numerical simulations of plasma dynamics consisting of multiple phases, a new immersed interface method (IIM) scheme to solve multiphase flows with different viscosities and densities is being developed. The jump conditions for velocity, pressure, and their derivatives necessary for the finite difference approximations in the IIM are derived. The derivation results in sets of coupled equations that can be solved numerically by an iterative method.

Item Type:	Article
Keywords:	discontinuity, jump condition, immersed interface method
Subjects:	500 Science and Mathematic > 500 Science > 507 Education, Research, Related Topics
Divisions:	Faculty of Engineering & Informatics > Engineering Physics
Depositing User:	Administrator UMN Library
Date Deposited:	09 Dec 2021 15:02
Last Modified:	09 Dec 2021 15:02
URI:	https://kc.umn.ac.id/id/eprint/19429

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