Dynamic Grid Adaption for Computational Magnetohydrodynamics
نویسندگان
چکیده
In many plasma physical and astrophysical problems, both linear and nonlinear effects can lead to global dynamics that induce, or occur simultaneously with, local phenomena. For example, a magnetically confined plasma column can potentially posses global magnetohydrodynamic (MHD) eigenmodes with an oscillation frequency that matches a local eigenfrequency at some specific internal radius. The corresponding linear eigenfunctions then demonstrate large-scale perturbations together with fine-scale resonant behaviour. A well-known nonlinear effect is the steepening of waves into shocks where the discontinuities that then develop can be viewed as extreme cases of ‘short wavelength’ features. Numerical simulations of these types of physics problems can benefit greatly from dynamically controlled grid adaptation schemes. Here, we present a progress report on two different approaches that we envisage to evaluate against each other and use in multi-dimensional hydroand magnetohydrodynamic computations. In r-refinement, the number of grid points stays fixed, but the grid ‘moves’ in response to persistent or developing steep gradients. First results on 1D and 2D MHD model problems are presented. In h-refinement, the resolution is raised locally without moving individual mesh points. We show 2D hydrodynamic ‘shock tube’ evolutions where hierarchically nested patches of subsequently finer grid spacing are created and destroyed when needed. This adaptive mesh refinement technique will be further implemented in the Versatile Advection Code, so that its functionality carries over to any set of near conservation laws in one, two, or three space dimensions.
منابع مشابه
cient Load Balancing and Data Remapping for Adaptive Grid
Mesh adaption is a powerful tool for eecient unstructured-grid computations but causes load imbalance among processors on a parallel machine. We present a novel method to dynamically balance the processor workloads with a global view. This paper presents, for the rst time, the implementation and integration of all major components within our dynamic load balancing strategy for adaptive grid cal...
متن کاملStability Assessment Metamorphic Approach (SAMA) for Effective Scheduling based on Fault Tolerance in Computational Grid
Grid Computing allows coordinated and controlled resource sharing and problem solving in multi-institutional, dynamic virtual organizations. Moreover, fault tolerance and task scheduling is an important issue for large scale computational grid because of its unreliable nature of grid resources. Commonly exploited techniques to realize fault tolerance is periodic Checkpointing that periodically ...
متن کاملPrediction of Entrance Length for Magnetohydrodynamics Channels Flow using Numerical simulation and Artificial Neural Network
This paper focuses on using the numerical finite volume method (FVM) and artificial neural network (ANN) in order to propose a correlation for computing the entrance length of laminar magnetohydrodynamics (MHD) channels flow. In the first step, for different values of the Reynolds (Re) and Hartmann (Ha) numbers (600<ReL increases.
متن کاملA Priori Grid Adaption Strategies for Elliptic Pdes*
Adaptive grid techniques are often used to solve difficult PDEa, especially those which model time-dependent physical systems. The usual approach is to adapt the grid from one time step to the next, based on the solution at the previous time step. Grid adaption is less commonly applied to elliptic PDEs, which model the steady state behavior of a physical system. In this paper we examine whether...
متن کاملStability Improvement of Grid-connected Converter with LCL Filter based on Capacitor Current Active Damping by Computational Delay Reduction
Nowadays, LCL filters utilization to suppress the grid-connected inverter switching harmonics is expanding and various methods such as capacitor current active damping scheme could be investigated to damp out these harmonics. However, the computational delays including control system, and PWM switching delays have significant effect on damping system stability. In most of LCL filter parameter d...
متن کامل