One of the key research topics in the computational fluid dynamics community is to improve the computational efficiency of steady-state finite volume codes. Real-world use cases require the solution to the Navier-Stokes equations for a wide range of Mach numbers, Reynolds numbers and mesh cell aspect ratios. This introduces stiffness in the discretised equations and therefore a slowdown in convergence. The community has pursued in particular two avenues to speed up the convergence of the corresponding error modes: Optimisation of Runge-Kutta coefficients for explicit Runge-Kutta schemes; and the introduction of implicit preconditioners, with a limited investigation of Runge-Kutta coefficients suitable to those implicit preconditioners. Afte...
This folder contains the Butcher's tableaux of the optimized explicit Runge-Kutta schemes for high-o...
Despite the popularity of high-order explicit Runge-Kutta (ERK) methods for integrating semi-discret...
In this paper, two semi-implicit Runge-Kutta algorithms are developed for the simula-tion of wall-bo...
One of the key research topics in the computational fluid dynamics community is to improve the compu...
One of the key research topics in the computational fluid dynamics (CFD) community is to improve the...
The convergence of a Runge-Kutta (RK) scheme with multigrid is accelerated by preconditioning with a...
We focus our attention on the numerical simulations of compressible flows obtained by using Finite D...
Optimized Runge-Kutta Methods with Automatic Step Size Control for Compressible Computational Fluid ...
An implicit residual smoothing technique to enhance convergence properties of Runge-Kutta time stepp...
The main difficulty in the implementation of most standard implicit Runge-Kutta (IRK) methods applie...
We present a line implicit preconditioned multistage Runge-Katta method to significantly improve the...
For unstructured finite volume methods, we present a line implicit Runge–Kutta method applied as smo...
Efficient time integration is of the utmost concern for unsteady flow computations. Within this cont...
To improve the efficiency for unsteady flow simulations a modification of a family of preconditioner...
AbstractFor implicit Runge-Kutta methods intended for stiff ODEs or DAEs, it is often difficult to e...
This folder contains the Butcher's tableaux of the optimized explicit Runge-Kutta schemes for high-o...
Despite the popularity of high-order explicit Runge-Kutta (ERK) methods for integrating semi-discret...
In this paper, two semi-implicit Runge-Kutta algorithms are developed for the simula-tion of wall-bo...
One of the key research topics in the computational fluid dynamics community is to improve the compu...
One of the key research topics in the computational fluid dynamics (CFD) community is to improve the...
The convergence of a Runge-Kutta (RK) scheme with multigrid is accelerated by preconditioning with a...
We focus our attention on the numerical simulations of compressible flows obtained by using Finite D...
Optimized Runge-Kutta Methods with Automatic Step Size Control for Compressible Computational Fluid ...
An implicit residual smoothing technique to enhance convergence properties of Runge-Kutta time stepp...
The main difficulty in the implementation of most standard implicit Runge-Kutta (IRK) methods applie...
We present a line implicit preconditioned multistage Runge-Katta method to significantly improve the...
For unstructured finite volume methods, we present a line implicit Runge–Kutta method applied as smo...
Efficient time integration is of the utmost concern for unsteady flow computations. Within this cont...
To improve the efficiency for unsteady flow simulations a modification of a family of preconditioner...
AbstractFor implicit Runge-Kutta methods intended for stiff ODEs or DAEs, it is often difficult to e...
This folder contains the Butcher's tableaux of the optimized explicit Runge-Kutta schemes for high-o...
Despite the popularity of high-order explicit Runge-Kutta (ERK) methods for integrating semi-discret...
In this paper, two semi-implicit Runge-Kutta algorithms are developed for the simula-tion of wall-bo...