This paper is an extension of our previous work on simulation of complex phase front evolution in the diffusion-dominated situation. The Navier-Stokes equations are solved using a finite-volume method based on a second-order accurate central-difference scheme in conjunction with a two-step fractional-step procedure. The key aspects that need to be considered in developing such a solver are imposition of boundary conditions on the immersed boundaries and accurate discretization of the governing equation in cells that are cut by these boundaries. A new interpolation procedure is presented which allows systematic development of a spatial discretization scheme that preserves the second-order spatial accuracy of the underlying solver. The presen...
Abstract:- A second-order accurate, finite-difference numerical method is developed for solving the...
Addressing the dynamics of multiphase fronts is crucial for successful practices of many engineering...
A computational capability has been developed to predict the free surface shape, heat transfer and m...
A Cartesian grid method has been developed for simulating two-dimensional unsteady, viscous, incompr...
A numerical high order difference method is developed for solution of the incompressible Navier-Stok...
A finite-difference formulation is applied to track solid-liquid boundaries on a fixed underlying gr...
[[abstract]]In this work, the local grid refinement procedure is focused by using a nested Cartesian...
[[abstract]]In this work, the local grid refinement procedure is focused by using a nested Cartesian...
In this paper, the local grid refinement is focused by using a nested grid technique. The Cartesian ...
In the paper a method is described that allows the simulation of the flow of an incompressible fluid...
The objective of the thesis is to build different fluid solvers from scratch, whereby the following ...
In this work, a mixed Eulerian-Lagrangian algorithm, calledELAFINT(Eulerian Lagrangian algorithm for...
A computational capability has been developed to predict the free surface shape, heat transfer and m...
Two immersed boundary methods (IBM) for the simulation of conjugate heat transfer problems with comp...
Abstract: The paper presents a numerical algorithm for computing three-dimensional viscous...
Abstract:- A second-order accurate, finite-difference numerical method is developed for solving the...
Addressing the dynamics of multiphase fronts is crucial for successful practices of many engineering...
A computational capability has been developed to predict the free surface shape, heat transfer and m...
A Cartesian grid method has been developed for simulating two-dimensional unsteady, viscous, incompr...
A numerical high order difference method is developed for solution of the incompressible Navier-Stok...
A finite-difference formulation is applied to track solid-liquid boundaries on a fixed underlying gr...
[[abstract]]In this work, the local grid refinement procedure is focused by using a nested Cartesian...
[[abstract]]In this work, the local grid refinement procedure is focused by using a nested Cartesian...
In this paper, the local grid refinement is focused by using a nested grid technique. The Cartesian ...
In the paper a method is described that allows the simulation of the flow of an incompressible fluid...
The objective of the thesis is to build different fluid solvers from scratch, whereby the following ...
In this work, a mixed Eulerian-Lagrangian algorithm, calledELAFINT(Eulerian Lagrangian algorithm for...
A computational capability has been developed to predict the free surface shape, heat transfer and m...
Two immersed boundary methods (IBM) for the simulation of conjugate heat transfer problems with comp...
Abstract: The paper presents a numerical algorithm for computing three-dimensional viscous...
Abstract:- A second-order accurate, finite-difference numerical method is developed for solving the...
Addressing the dynamics of multiphase fronts is crucial for successful practices of many engineering...
A computational capability has been developed to predict the free surface shape, heat transfer and m...