Add to ORKGCoupled systems of reaction-diffusion equations are usually solved using a unified time step determined by the most restrictive time scale in the system. We demonstrate in this paper that this time step could be excessively small in many situations, and discuss a more efficient time integration method that does not require linearization procedure and uses different time steps for different equations in a coupled system, depending on their respective time scales. The basic idea is to decouple the system of equations and then apply different time steps to different equations with various time scales. This will also eliminate the need for linearization. Numerical results from a test problem will be discussed to demonstrate significant improvem...
AbstractA local interaction simulation approach, based on parallel processing, allows us to treat co...
We develop a Split Reactive Brownian Dynamics (SRBD) algorithm for particle simulations of reaction-...
Four major approaches model the time dependent behavior of chemical reaction systems: ordinary diffe...
Coupled systems of reaction-diffusion equations are usually solved using a unified time step determi...
AbstractEfficient numerical simulation techniques based on iterative and multigrid concepts are deve...
The most popular numerical method for solving systems of reaction-diffusion equations continues to b...
Summary. During the last years the interest in the numerical simulation of reacting flows has grown ...
A multi-rate problem is described by a system of coupled partial differential equations with differe...
Two different sets of time scales arising in stiff systems of reaction-diffusion PDEs are examined; ...
Reaction diffusion equations are widely used to model biological phenomena and in some situation, th...
Purpose: This paper aims to capture the effective behaviour of nonlinear coupled advection-diffusion...
This PhD thesis deals with the numerical simulation of chemical reaction systems. Chemical reaction ...
A new algorithm, called boosted hybrid method, is proposed for the simulation of chemical reaction s...
International audienceIn this paper, we tackle the numerical simulation of reaction-diffusion equati...
A local interaction simulation approach, based on parallel processing, allows us to treat complex di...
AbstractA local interaction simulation approach, based on parallel processing, allows us to treat co...
We develop a Split Reactive Brownian Dynamics (SRBD) algorithm for particle simulations of reaction-...
Four major approaches model the time dependent behavior of chemical reaction systems: ordinary diffe...
Coupled systems of reaction-diffusion equations are usually solved using a unified time step determi...
AbstractEfficient numerical simulation techniques based on iterative and multigrid concepts are deve...
The most popular numerical method for solving systems of reaction-diffusion equations continues to b...
Summary. During the last years the interest in the numerical simulation of reacting flows has grown ...
A multi-rate problem is described by a system of coupled partial differential equations with differe...
Two different sets of time scales arising in stiff systems of reaction-diffusion PDEs are examined; ...
Reaction diffusion equations are widely used to model biological phenomena and in some situation, th...
Purpose: This paper aims to capture the effective behaviour of nonlinear coupled advection-diffusion...
This PhD thesis deals with the numerical simulation of chemical reaction systems. Chemical reaction ...
A new algorithm, called boosted hybrid method, is proposed for the simulation of chemical reaction s...
International audienceIn this paper, we tackle the numerical simulation of reaction-diffusion equati...
A local interaction simulation approach, based on parallel processing, allows us to treat complex di...
AbstractA local interaction simulation approach, based on parallel processing, allows us to treat co...
We develop a Split Reactive Brownian Dynamics (SRBD) algorithm for particle simulations of reaction-...
Four major approaches model the time dependent behavior of chemical reaction systems: ordinary diffe...