In this paper, a new interface treatment technique for multi-phase meshless methods is proposed for two-dimensional simulations. It enables the interface conditions to be applied effectively on the interface points involving interface tension and high viscosity. This technique is incorporated in the Meshless Local Petrov–Galerkin method with the Rankine source solution (MLPG_R) and the model predictions are validated through a number of standard test cases. Convergent results that agreed well with both available analytical and numerical solutions from other methods are obtained in simulations of square-droplet deformation, capillary wave, bubble rising and Rayleigh–Taylor instability. In these cases, sharp pressure discontinuity at the inte...
Two-phase and multi-phase flows are common flow types in fluid mechanics engineering. Among the basi...
In this work, we have presented a multiphase Incompressible Smoot hod Particle Hydrodynamics (ISPII)...
We present numerical methods that enable the direct numerical simulation of two-phase flows in irreg...
This is a first attempt to develop the Meshless Local Petrov-Galerkin method with Rankine source sol...
An identification technique for sharp interface and penetrated isolated particles is developed for s...
One of the challenges in modelling multiphase fluid systems is to capture accurately the discontinuo...
We report on the development and applications of an interface-capturing method aimed at computing th...
A sharp interface method to capture the exact dynamics of liquid - vapor interfaces, has been develo...
This study presents a simple and robust numerical scheme to model two-phase flow in porous media whe...
This article reviews and analyzes a number of numerical methods to track interfaces in multiphase fl...
This paper presents a comparative study of interface capturing methods with adaptive mesh refinemen...
The present work is on comparison of numerical-methodology as well as performance of the two types o...
cited By 69We have presented a multiphase incompressible smoothed particle hydrodynamics method with...
The purpose of this dissertation is the development of a novel, diffuse approximate meshles...
An improved level set approach for computing the incompressible two-phase flow with significantly de...
Two-phase and multi-phase flows are common flow types in fluid mechanics engineering. Among the basi...
In this work, we have presented a multiphase Incompressible Smoot hod Particle Hydrodynamics (ISPII)...
We present numerical methods that enable the direct numerical simulation of two-phase flows in irreg...
This is a first attempt to develop the Meshless Local Petrov-Galerkin method with Rankine source sol...
An identification technique for sharp interface and penetrated isolated particles is developed for s...
One of the challenges in modelling multiphase fluid systems is to capture accurately the discontinuo...
We report on the development and applications of an interface-capturing method aimed at computing th...
A sharp interface method to capture the exact dynamics of liquid - vapor interfaces, has been develo...
This study presents a simple and robust numerical scheme to model two-phase flow in porous media whe...
This article reviews and analyzes a number of numerical methods to track interfaces in multiphase fl...
This paper presents a comparative study of interface capturing methods with adaptive mesh refinemen...
The present work is on comparison of numerical-methodology as well as performance of the two types o...
cited By 69We have presented a multiphase incompressible smoothed particle hydrodynamics method with...
The purpose of this dissertation is the development of a novel, diffuse approximate meshles...
An improved level set approach for computing the incompressible two-phase flow with significantly de...
Two-phase and multi-phase flows are common flow types in fluid mechanics engineering. Among the basi...
In this work, we have presented a multiphase Incompressible Smoot hod Particle Hydrodynamics (ISPII)...
We present numerical methods that enable the direct numerical simulation of two-phase flows in irreg...