磁流体发电是一种直接发电方式。
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。
Thus, MHD generation is a practical way of raising the efficiency of utilization of coal.
本文研究一套新型的应用于燃煤磁流体发电研究的计算机数据采集系统。
This study is mainly focused on the development of a new computerized data acquisition system for the coal fired MHD electrical power generation experiments.
仿照磁流体发电机,设计制作了海水离子发电机模型,并将该模型用于教学。
Imitating magnetohydrodynamic generator, a seawater ion generator model is designed, and the model has been used in teaching.
本文应用几何规划理论和方法处理磁流体发电装置中燃烧产物组分的计算问题。
The principles and methods of geometric programming are adopted to deal with the calculation of compositions of combustion products in MHD system.
本文以磁流体发电通道中高温高速气流为测量对象,阐述了非接触式测量流速的方法。
For gas flow at high temperature and high speed in MHD-channel, a method of measuring gas velocity without physical contact is discussed in this paper.
合并电路是磁流体(MHD)发电功率调节系统的关键技术之一。
Consolidation circuitry is one of the keys for MHD power conditioning system.
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 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 Magneto hydrodynamics (MHD) generation a conductive gas (plasma) is. directed through a magnetic field and a potential is. developed.
应用推荐