magnetohydrodynamics

1. Experimental and Numerical Investigations of Magnetohydrodynamics of Magnetic Fluid; Numerical Simulation of Magnetohydrodynamic ( MHD) Control on 2D Diffuser's Flow Field
   磁流体动力学控制二维扩压器流场数值模拟研究
2. In succession or rotation. flash suppressor open-cycle magnetohydrodynamics
   轮流连续的或循环的
3. The mathematical model of EMBR ( electromagnetic brake) in slab mold is presented based on the theory of magnetohydrodynamics.
   采用模型实验结合数值模拟的方法分析了薄板坯连铸结晶器的电磁制动过程。
4. 2D arc modeling and simulation of SF6 circuit breaker based on magnetohydrodynamics
   SF6断路器磁流体二维电弧模型化与仿真
5. The structure of nozzle arc, thermal boundary region and gas flow is revealed through establishing magnetohydrodynamics ( MHD) model.
   建立的喷口电弧磁流体动力学（MHD）数学模型，揭示了喷口电弧、热边界区、外部气流场的组成结构。
6. Time analyticity and periodic solutions for magnetohydrodynamics equations
   磁流体方程的时间解析性和时间周期解
7. The stationary incompressible magnetohydrodynamics problems are dealt with Galerkin/ Petrov-least squares mixed finite element method.
   第二部分将Galerkin／Petrov最小二乘混合元方法应用于处理定常的磁流体动力学问题。
8. Lastly, a perpendicular, a parallel magnetohydrodynamics shock wave and aerodynamic shock wave are discussed.
   最后，对垂直磁流体激波、平行磁流体激波以及气体动力学激波分别予以讨论。
9. This paper employs the finite element method to solve the eigenvalue problem on the stability of a perturbed 2D magnetohydrodynamics ( MHD) model of an aluminum reduction cell.
   本文采用有限元法求解分层磁流体小扰动方程系统特征值，研究铝电解槽稳定性。
10. An obligue, a perpendicular, a parallel shock wave as well as the unitized form for the aerodynamic and the magnetohydrodynamics shock wave are discussed in this paper respectively.
    对斜激波、垂直激波、平行激波和气体动力学激波与磁流体力学激波的统一形式均给予了讨论.这些公式对理论研究和工程应用中的实际计算都很方便。
11. The jump equations of the magnetohydrodynamics shock wave are transformed to the dimensionless form, so that their solutions become very simple and straightforward.
    本文通过对磁流体激波跃变方程组的无量纲化处理，得到了有关磁流体激波跃变条件及其解析解的一种普遍化的最简形式；
12. A mathematical model indicated the second cooling segment electromagnetic stirring ( S EMS) for continuous casting billet was presented according to basic theory of magnetohydrodynamics and boundary renewal method of magnetic field. The flow field and magnetic field of molten steel were simulated by CFX commercial software.
    运用电磁流体力学基本理论及磁场边界更新法，给出了方坯连铸二冷区电磁旋转搅拌的数学模型，并利用CFX软件进行了钢液流场和磁场的数值模拟。
13. Nonlinear Galerkin Mixed Element Methods for the Stationary Incompressible Magnetohydrodynamics
    定常的磁流体力学方程的非线性Galerkin混合元法
14. Magnetohydrodynamics of bubble-containing liquid metals and Hartmann flows
    含气泡液态金属的磁流体力学和Hartmann流动
15. Based on the principle of magnetohydrodynamics, the forced state on the liquid metal solidification rotating in the shifty magnetic field and the constant magnetic field were theoretically analyzed and numerically simulated.
    运用电磁流体动力学原理，对在时变磁场中和在稳恒磁场中的旋转液态金属凝固时的受力状态进行了理论解析和数值模拟分析。
16. As a non-ideal effect, magnetohydrodynamics is not considered in the stellar structure and evolution.
    在恒星结构和演化模型中，磁流体动力学过程作为一个非理想效应并没有被考虑。
17. From the basic magnetohydrodynamics equations, the accretion disk model with a quasi-dipole magnetic field is discussed in this paper.
    本文从磁流体力学基本方程组出发，讨论了具有类偶极磁场的厚吸积盘模型。
18. Petrov-Galerkin Least Squares Mixed Element Method for the Stationary Incompressible Magnetohydrodynamics
    定常的磁流体动力学问题的Galerkin-Petrov最小二乘混合元方法
19. A Galerkin/ Petrov-least squares mixed finite element formulation for the stationary incompressible magnetohydrodynamics problems is presented.
    给出问题的Galerkin／Petrov最小二乘混合元格式；
20. The mathematical model of LMF ( level magnetic field) EMBR ( electromagnetic brake) in slab mold is presented here according to the basic theory of magnetohydrodynamics, and then, numerical simulation is done by CFX commercial software.
    本文利用电磁流体力学（MHD）的基本理论，给出板坯结晶器内全幅一段电磁制动的数学模型，并利用CFX软件进行了数值模拟。
21. People made various numerical simulations of the nebula-forming process after the Great Eruption by means of gas dynamics and magnetohydrodynamics.
    人们从气体动力学、磁流体力学的角度对恒星大爆发后星云的形成过程作过多种数值模拟。
22. The dispersion equation of linear disturbance magnetohydrodynamics equations 'is an algebraic equation of third power of frequency when the magnetic diffusivity is considered as a function of temperature.
    考虑磁扩散率为温度的函数以及绝热条件，线性扰动磁流力学方程组的色散方程是频率的三次方程。
23. The subtle interactions between magnetohydrodynamics and high-frequency plasma waves involving transverse and longitudinal modes are investigated.
    本文研究了磁流体力学与高频等离子体波（包括纵横模式）之间的精巧的相互作用。
24. Theoretical researches on solar activity, solar flare and CME were involved in many fields of foundational physics such as plasma astrophysics, magnetohydrodynamics ( MHD) and so on.
    探索太阳活动的规律、太阳耀斑及其伴随CME的先兆、触发过程及能量传播机制等等，从理论上推动了等离子体天体物理、磁流体力学等诸多基础理论的发展，有着重要的理论意义；
25. This paper presents an analytical expression for the gain of the Free Electron Laser Operating in Raman Regime with a warm electron beam through the approach of one dimensional magnetohydrodynamics.
    采用一维流体理论导出了暖电子束条件下Raman型自由电子激光增益的解析式。此式清晰地描述了自由电子激光中的暖束效应。
26. With the broad application of electromagnetic field and magnetohydrodynamics theory in materials science, more and more diversified electromagnetic field are imposing in the preparation of materials to improve the quality of products.
    随着电磁场和电磁流体力学理论在材料科学中得日益广泛的应用，在材料制备过程中越来越多的利用各种形式的电磁场来改善产品的质量。
27. The turbulent magnetic fields which is generated by the turbulence is derived from the magnetohydrodynamics equations. It's form is the contribution of the Reynolds stress tensor and magnetic fluctuating tensor.
    由湍流激发的湍流磁场，作为一个非理想效应对太阳热结构的改正是从MHD方程组推导出来，它的形式是ReynoldsStress张量和磁扰动张量的贡献。
28. Hydrodynamics and magnetohydrodynamics have wide applications in astrophysics.
    流体力学和磁流体力学在天体物理中的应用是十分广泛的。
29. To investigate the mechanism of onset of magnetic reconnection more better, electron magnetohydrodynamics ( EMHD) is used to study reconnection instability.
    为了更好的研究磁场重联的产生机制，我们采用了电子磁流体模型对磁场重联不稳定性的各种效应进行了研究。
30. The applications of LBM have achieved great success in multiphase flow, porous flow, suspending particle flow, magnetohydrodynamics, etc. But less research on the microgravity fluid is found.
    该方法虽然已经在多相流、多孔介质流、悬浮粒子流、磁流体力学等领域取得了很大的成功，但是目前在微重力流体力学中的应用研究甚少。

noun

1. the study of the interaction of magnetic fields and electrically conducting fluids (as plasma or molten metal)