Electric Propulsion Plume Simulations Using Parallel Computer

Wang, Joseph; Cao, Yong; Kafafy, Raed; Decyk, Viktor

doi:https://doi.org/10.1155/2007/272431

Scientific Programming

On this page

Abstract Copyright Related Articles

Special Issue

High Performance Computing for Mission-Enabling Space Applications

View this Special Issue

Open Access

Volume 15 | Article ID 272431 | https://doi.org/10.1155/2007/272431

Electric Propulsion Plume Simulations Using Parallel Computer

Joseph Wang,^1,2Yong Cao,¹Raed Kafafy,¹and Viktor Decyk^2,3

Received22 Jun 2007

Accepted22 Jun 2007

Abstract

A parallel, three-dimensional electrostatic PIC code is developed for large-scale electric propulsion simulations using parallel supercomputers. This code uses a newly developed immersed-finite-element particle-in-cell (IFE-PIC) algorithm designed to handle complex boundary conditions accurately while maintaining the computational speed of the standard PIC code. Domain decomposition is used in both field solve and particle push to divide the computation among processors. Two simulations studies are presented to demonstrate the capability of the code. The first is a full particle simulation of near-thruster plume using real ion to electron mass ratio. The second is a high-resolution simulation of multiple ion thruster plume interactions for a realistic spacecraft using a domain enclosing the entire solar array panel. Performance benchmarks show that the IFE-PIC achieves a high parallel efficiency of ≥ 90%

Copyright

Copyright © 2007 Hindawi Publishing Corporation. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

PDF Download Citation Order printed copies

Views

270

Downloads

622

Citations