A new fractional-step method is proposed for the numerical solution of high speed reacting flows, where the chemical time scales are often much smaller than the fluid dynamical time scales. When the problem is stiff, because of insufficient spatial/temporal resolution, a well-known spurious numerical phenomenon occurs in standard finite volume schemes: the incorrect calculation of the speed of propagation of discontinuities. The new method is first illustrated considering a one-dimensional scalar hyperbolic advection/reaction equation with stiff source term, which may be considered as a model problem to under-resolved detonations. During the reaction step, the proposed scheme replaces the cell average representation with a two-value reconst...
The goal of this paper is to relate numerical dissipations that are inherited in high order shock-ca...
Multiple length and time scales exist in high-speed reacting flows and need to be treated with due c...
In this paper, we construct a new numerical method to solve the reactive Euler equations to cure the...
A new fractional-step method is proposed for the numerical solution of high speed reacting flows, wh...
In simulating hyperbolic conservation laws in conjunction with an inhomogeneous stiff source term, i...
The motivation for this research stems from the high-speed chemical reacting flows which have stiff ...
In this paper, we extend the high order finite-difference method with subcell resolution (SR) in [33...
A new high order finite-difference method utilizing the idea of Harten ENO subcell resolution method...
The author presents a numerical method based on ENO-methods with subcell-resolution techniques in or...
WOS:000360952400005International audienceThis paper deals with some salient features of numerical de...
stricted to be homogeneous in U; that is, (x, y, z) and t do not appear explicitly in S(U). If physi...
This paper contributes to the topic of unphysical one-cell-per-time-step travelling combustion wave ...
The goal of this paper is to relate numerical dissipations that are inherited in high order shock-ca...
Multiple length and time scales exist in high-speed reacting flows and need to be treated with due c...
In this paper, we construct a new numerical method to solve the reactive Euler equations to cure the...
A new fractional-step method is proposed for the numerical solution of high speed reacting flows, wh...
In simulating hyperbolic conservation laws in conjunction with an inhomogeneous stiff source term, i...
The motivation for this research stems from the high-speed chemical reacting flows which have stiff ...
In this paper, we extend the high order finite-difference method with subcell resolution (SR) in [33...
A new high order finite-difference method utilizing the idea of Harten ENO subcell resolution method...
The author presents a numerical method based on ENO-methods with subcell-resolution techniques in or...
WOS:000360952400005International audienceThis paper deals with some salient features of numerical de...
stricted to be homogeneous in U; that is, (x, y, z) and t do not appear explicitly in S(U). If physi...
This paper contributes to the topic of unphysical one-cell-per-time-step travelling combustion wave ...
The goal of this paper is to relate numerical dissipations that are inherited in high order shock-ca...
Multiple length and time scales exist in high-speed reacting flows and need to be treated with due c...
In this paper, we construct a new numerical method to solve the reactive Euler equations to cure the...