The Open Cybernetics & Systemics Journal

2017, 11 : 13-23
Published online 2017 January 25. DOI: 10.2174/1874110X01711010013
Publisher ID: TOCSJ-11-13

RESEARCH ARTICLE
Numerical Investigation of Multi-field Coupling Problems on Magneto Hydrodynamics Propulsion by Surface

Zong Kai Liu1,2, * , Ben Mou Zhou2 , Yu Ming Bo1 , Yan Ji2 , Ya Dong Huang2 and Qi Yu3

* Address correspondence to this author at the Advanced Weapon Launch Collaborative Innovation Center, Nanjing University of Science and Technology, Nanjing University of Science and Technology (Xiao Linwei 200#), Nanjing, JiangSu, China; Tel/Fax: 15105164676; E-mail: kfliukai@126.com

ABSTRACT

The influence of Multi-field coupling on EMHD (electromagnetic hydrodynamics) propulsion by surface has been numerically investigated in this paper. In former studies, induced item in Lorentz force is usually ignored due to low Reynolds number or weakly conductive fluid. However, for some special environments, this influence of induced item cannot be ignored anymore. Based on navigation model, numerical simulation of EMHD propulsion by surface at Reynolds number 104 are carried out to examine the influence of propulsion effect and flow field characteristic by different magnetic. This result shows that, within a certain range, the efficiency improved with magnetic field intensity, however with its further increase the efficiency decreases, which depends not only on magnetic but also on Reynolds number. Moreover, instead of machine driven, this propulsion scheme offers several advantages over the conventional locked train gear drives, such as noise reducing, less space requirement and so on. This article further explores some of the basic principles of EMHD propulsion and provides a methodology for evaluating the performance of such systems.

Keywords:

EMHD propulsion, Lorentz force, Multi-field coupling, Propulsion effect.