Journal of Computational Physics
A level set simulation of dendritic solidification of multi-component alloys
Journal of Computational Physics
A unified moving grid gas-kinetic method in Eulerian space for viscous flow computation
Journal of Computational Physics
Journal of Computational Physics
A sharp interface immersed boundary method for compressible viscous flows
Journal of Computational Physics
A lattice Boltzmann method for immiscible multiphase flow simulations using the level set method
Journal of Computational Physics
Remapping-free ALE-type kinetic method for flow computations
Journal of Computational Physics
A Schur complement formulation for solving free-boundary, Stefan problems of phase change
Journal of Computational Physics
Numerical modelling of the one-phase stefan problem by finite volume method
NAA'04 Proceedings of the Third international conference on Numerical Analysis and its Applications
Challenges in computer applications for ship and floating structure design and analysis
Computer-Aided Design
Modeling and simulation of thermocapillary flows using lattice Boltzmann method
Journal of Computational Physics
Lattice Boltzmann phase-field modeling of thermocapillary flows in a confined microchannel
Journal of Computational Physics
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From the Publisher:Presents developments in computational techniques pertaining to moving boundary problems in fluid dynamics. It describes several computational techniques which can be applied to a variety of problems in thermo-fluid physics, multi-phase flow, and applied mechanics which involve moving flow boundaries. The book demonstrates the application of a variety of techniques for the numerical solution of moving boundary problems within the framework of the finite-volume approach, with appropriate examples.