AbstractIn numerical simulation of 3D gas detonation, due to the complexity of the computational domain in high resolution numerical computing negative density and pressure often emerge, which leads to blow-ups. In addition, a large number of grids resulting from relative mesh resolution and large-scale computing domain consume tremendous computing resources, which poses another challenge on the numerical simulation. In this paper, the positivity-preserving high order weighted essentially non-oscillatory (WENO) scheme is constructed without destroying the numerical accuracy and stability, and then the high-resolution parallel code is developed on the platform of Message Passing Interface (MPI). It is used to simulate the propagation of deto...
This paper concerns the 3D simulation of corona discharge using high performance computing (HPC) man...
A parallel code for the simulation of the transient 3D dispersal of volcanic particles produced by e...
In this paper, we demonstrate the detailed numerical studies of three classical two dimension-al det...
AbstractIn numerical simulation of 3D gas detonation, due to the complexity of the computational dom...
In this talk we present results of direct numerical simulations of three-dimensional detonations, th...
Summary. A parallel algorithm which has sufficient scalability for time accurate solution of a propa...
We present results of our numerical study of 3D detonation structures that were obtained with an uns...
Thesis (Master's)--University of Washington, 2014The purpose of this thesis was to develop a code th...
In this paper, three versions of WENO schemes WENO-JS (JCP 126, 1996), WENO-M (JCP 207, 2005) and WE...
In this article we present a detailed numerical study of three-dimensional structures in gaseous det...
ii This design and applications project consists in the development of a parallel extension for a tw...
This design and applications project consists in the development of a parallel extension for a two-d...
In this paper, we apply high-order finite difference (FD) schemes for multispecies and multireaction...
AbstractContinuous Detonation Engine is a new concept of a supersonic combustion engine for aerospac...
[Objectives] In this paper, an improved third-order WENO scheme named ‘WENO-N+3’ is constructed by a...
This paper concerns the 3D simulation of corona discharge using high performance computing (HPC) man...
A parallel code for the simulation of the transient 3D dispersal of volcanic particles produced by e...
In this paper, we demonstrate the detailed numerical studies of three classical two dimension-al det...
AbstractIn numerical simulation of 3D gas detonation, due to the complexity of the computational dom...
In this talk we present results of direct numerical simulations of three-dimensional detonations, th...
Summary. A parallel algorithm which has sufficient scalability for time accurate solution of a propa...
We present results of our numerical study of 3D detonation structures that were obtained with an uns...
Thesis (Master's)--University of Washington, 2014The purpose of this thesis was to develop a code th...
In this paper, three versions of WENO schemes WENO-JS (JCP 126, 1996), WENO-M (JCP 207, 2005) and WE...
In this article we present a detailed numerical study of three-dimensional structures in gaseous det...
ii This design and applications project consists in the development of a parallel extension for a tw...
This design and applications project consists in the development of a parallel extension for a two-d...
In this paper, we apply high-order finite difference (FD) schemes for multispecies and multireaction...
AbstractContinuous Detonation Engine is a new concept of a supersonic combustion engine for aerospac...
[Objectives] In this paper, an improved third-order WENO scheme named ‘WENO-N+3’ is constructed by a...
This paper concerns the 3D simulation of corona discharge using high performance computing (HPC) man...
A parallel code for the simulation of the transient 3D dispersal of volcanic particles produced by e...
In this paper, we demonstrate the detailed numerical studies of three classical two dimension-al det...