Fundamental Performance of Disk-shaped Magnetohydrodynamics Accelerator
スポンサーリンク
概要
- 論文の詳細を見る
This paper investigates the acceleration performance of a disk-shaped magnetohydrodynamics (MHD) accelerator. Quasi-1-dimensional (Q1D) numerical simulation employing the MacCormack scheme was developed. For the longer channel length of 0.9 m, thermal loss was estimated at over 60% and effective acceleration could not be achieved owing to large heat loss and large friction loss. For shorter channel lengths, thermal loss can be reduced below 20% owing to the smaller heat and the friction losses. However, with too short a channel length, accelerator performance was decreased by the MHD compression due to excessive Faraday current density. The effect of ratio of cross sectional area on performance was also studied. For a larger area ratio, the gas can be accelerated smoothly throughout the MHD channel. However, for the excessive expansion case of a sevenfold channel, gas velocity near the exit decreased due to transition to a “generator mode”. For the best acceleration performance, the design channel length should be as short as possible preventing compression at the channel inlet. The area ratio should be large enough to prevent the compression but not too large, to prevent transition to a “generator mode”.
- 2011-05-04
著者
-
TAKESHITA Shinji
Nagaoka University of Technology
-
BUTTAPENG Chainarong
University of the Thai Chamber of Commerce
-
Harada Nobuhiro
Nagaoka Univ. Of Technol.
-
FURUYA Seizo
Gunma University
-
Takeshita Shinji
Nagaoka Univ. Of Technol.
-
竹下 慎二
和歌山工業高等専門学校
関連論文
- Numerical study of an AC MHD generation with double-side exciting winding
- Acceleration Effect of Swirl Flow for Disk MHD Accelerator
- Numerical Study of an AC MHD Generation with Double-side Exciting Winding
- Numerical Study of an AC MHD Generation with Double-side Exciting Winding
- Improvement of Tear Strength using Dielectric Barrier Discharge Plasma
- High-Enthalpy Extraction Experiments with Disk MHD Generators
- Fundamental Performance of Disk-shaped Magnetohydrodynamics Accelerator
- Impact of E-Beam Power on the Efficiency of a Faraday Accelerator
- Numerical Simulation for the Performance of a Magnetohydrodynamic Accelerator
- Studies on Low Specific Mass NFR/MHD Power Generation System for Space Applications
- Fundamental of an AC MHD Generation with Single-side Exciting Winding
- Plasma Structure in a Disk MHD Generator using He/Xe Working Plasma
- Fundamental Performance of Disk-shaped Magnetohydrodynamics Accelerator
- Fundamental of an AC MHD Generation with Single-side Exciting Winding
- Experimental Demo for Small Scale MHD Plasma Accelerator
- モデルロケットエンジンを用いた直線形MHD加速機実験を模擬した数値解析による加速効果の検討
- Study on Pulsed Linear MHD Accelerator using Model Rocket Engine
- Fundamental Study of Pulsed Ion Beam Ablation Plasma Model for Space Propulsion Applications
- 直線形パルスMHD加速機の入力電流波形による加速効果への影響