MHD generation is a direct generation of power.
磁流体发电是一种直接发电方式。
This paper discusses the interaction between MHD intermediate shocks.
本文讨论磁流体中间激波的相互作用规律。
Consolidation circuitry is one of the keys for MHD power conditioning system.
合并电路是磁流体(MHD)发电功率调节系统的关键技术之一。
The mechanism of magnetohydrodynamic (MHD) control is demonstrated in the article.
阐述了磁流体动力学(MHD)控制流场作用机理。
The second in GLPL and first amino acid residue in MHD also showed lower conservation.
而GLPL的第二位氨基酸及MHD的第一位氨基酸保守性相对较差。
Both sawtooth and MHD-oscillation discharge status can appear in the transition region.
过渡区中可以出现锯齿和MHD振荡两种放电状态。
Thus, MHD generation is a practical way of raising the efficiency of utilization of coal.
强调燃煤磁流体发电是大幅度提高煤利用效率的一条现实途径。
On the other hand, the magnetohydrodynamics (MHD) is always the focus in electrochemistry.
另外,电化学中的磁流体动力学效应也一直是人们所关注的焦点。
The MHD flow of a viscous fluid towards a non-linear porous shrinking sheet was investigated.
研究在非线性多孔收缩表面上黏性磁流体(MHD)的流动。
We describe the various possibility of frequency shifts for a time dependent source of MHD turbulence.
对于一个时间相关的MHD湍流源,我们给出了导致频率变化的各种可能性。
This paper focuses on elucidationg MHD in models of flare theory and the problems in connection with it.
着重讨论了耀斑理论模型中的磁流体力学方面的问题,并指出了其存在的问题。
Conclusion: PDLC can be directly established in senile MHD patients as reliable permanent vascular access.
结论:老年MHD患者可以直接采用PDLC作为长期血管通路。
The suppression role of the ac current on the MHD perturbations was analyzed in theory and proved numerically.
关于交变电流对MHD扰动的抑制作用,从理论上作了分析并从数值上加以证明。
We should take care of both somatic and psychological health of MHD patients to improve their quality of life.
我们应该兼顾病人的躯体和精神两方面的健康,努力提高他们的生活质量。
Objective To investigate the quality of life (QoL) of maintenance hemodialysis (MHD) patients in Beijing suburb.
目的了解北京市郊区维持性血液透析(MHD)患者的生活质量。
The cutset method can be used for solving circuit problems in the MHD generator under various loading conditions.
文中采用割集法求解,可以解各类具有复杂负载的MHD发电机的等效网络。
MHD propulsion types are classified into the AC MHD propulsion and the DC MHD propulsion by supplied magnetic field.
根据外加磁场特性的不同,磁流体推进可分为直流和交流两种方式。
The MHD stirring chamber is fabricated with ordinary brass and polycarbonate plate by conventional machining method.
该小型电磁动力混合器由聚碳酸脂和黄铜采用常规机械加工方法加工而成。
Chapter Four, Chapter Five and Chapter Six belong to the second part, Research on the fabrication of DC MHD micropump.
第四章、第五章与第六章属于第二部分研究,磁流体推进式微型泵的研制。
The proliferative response of T-lymphocyte to exogenous IL-2 was studied in 18 maintenance hemodialysis (MHD) patients.
报告18例维持性血液透析(MHD)患者T淋巴细胞对外源性白细胞介素- 2 (IL - 2)的增殖反应。
Based on two dimensional MHD mathematical model of nozzle arc, a CAD program is developed for SF6 circuit breaker design.
在建立的喷口电弧二维磁流体动力学数学模型的基础上,开发了SF_6断路器的CAD软件。
Theoretical analyses of fishbone modes based on the ideal MHD framework have predicted that two branches of modes exists.
现有鱼骨模理论是建立在理想磁流体近似基础上的,它预言有两支不稳定分支。
Objective To evaluate the clinical characteristics and therapeutic effects of the old patients in maintenance hemodialysis (MHD).
目的探讨老年人维持性血液透析(MHD)的特点和临床疗效。
Tokamak equilibrium code SWEQU has been modified so that it can be used for the MHD equilibrium study of low aspect ratio device.
对原有的托卡马克平衡编码SWEQU进行了改进,使之适用于小环径比球形环装置的磁流体研究。
The results of the experiment and theory from low-aspect ratio tokamak devices have proved that the MHD stability will be improved.
低环径比托卡马克装置的实验和理论结果已证实它有利于改善MHD稳定性。
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。
This paper mainly discusses the mathematical basis of MHD Foils and whether the two dimensional wing theory still will be effective.
本文讨论了磁流体翼的数学基础,即二维机翼理论在磁流体翼中适用的条件。
The simulation results indicate that the spatial Fourier analysis is a better method to determine the MHD perturbation mode in tokamak.
比较结果表明,用空间傅里叶分析法识别托卡马克中的MHD扰动模式是一种可以行之有效的方法。
In Magneto hydrodynamics (MHD) generation a conductive gas (plasma) is. directed through a magnetic field and a potential is. developed.
在磁流体(MHD)发电中,导电气体(等离子体)直接通过一磁场来产生电压。
In cylindrical helical coordinates, generalized magnetohydrodynamic (MHD) equations are reduced to four first order differential equations.
采用柱螺旋坐标系,把广义磁流体力学方程组简化为四元一阶微分方程组。
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