1) power sharing
功率均分
2) Power
功率
1.
Power Calculation of Twin Rotor Mixer;
双转子连续混炼机功率计算
2.
Ways of Power Signal’s Simultaneous Processing;
机床切削功率信号实时处理方法
3) power consumption
功率
1.
In the research, mass transfer coefficients (KLa) of various type of agitators in a vertical cylindrical vessel were measured by pure oxygen absorption method, aad the power consumption were also determined.
本文采用纯氧物理吸收法在立式圆筒形釜中测定了气液容积传质系数K_La,也测量了功率。
2.
The power consumption characteristics of the absorber of CO_2 by watering a rotating packed bed with wire packing in air independent propulsion(AIP) were throretically analyzed and the power model of this absorber was built on the experiments.
对不依赖空气动力装置(AIP)系统的水吸收CO2不锈钢丝网填料旋转床吸收器功耗特性进行了理论分析和实验研究,建立了该型吸收器功率消耗模型。
3.
The real power consumption of saline field filming machine (SFM) is composed of rotating power (including power of cutting soil and throw rising soil) and hauling power,which are very difficult to determine because the function of SFM is different from that of a rotary cultivator.
在防渗铺膜机实际功耗很难确定的条件下,以因次分析为基础,用小型样机测出主要参数,由瑞烈法确定受力的数学模型,求出在实际工作状态下的功耗,为选取牵引拖拉机的功率提供了可靠的依据。
4) aggregate capacity
"总功率,机组功率"
5) high-power
大功率
1.
Manufacture and application of high-power fast gleithobel plough;
大功率快速滑行刨煤机的研制与应用
2.
Primary analyses of the development of marine high-power diesel engine industry;
船用大功率柴油机产业发展初步分析
3.
Optimum Design of Passive Coupler with Two-way Splitter for High-power Laser;
大功率激光两分束无源耦合器的优化设计
6) Power factor
功率因数
1.
Principle and approach to improve power factor of induction furnace of intermediate frequency;
一种提升中频加热炉功率因数的原理及方法
2.
Design and experiment of high power factor converter on arc welding inverter power source;
高功率因数弧焊逆变电源的整流器设计与实验
3.
The Method of Group-Control for Electronic Ballasting of the High Power Factor;
高功率因数电子镇流的群控方法
参考词条
补充资料:能量均分定理
| 能量均分定理 equipartition,theorem 在平衡态,物质分子能量分配的统计规律。在温度为T的平衡态,物质(气体、液体或固体)分子的每一个运动自由度都具有相同的平均动能  ,其中k是玻耳兹曼常量。用它可确定物质的内能和热容量。如果气体分子的平动、转动、振动自由度分别为t、r、s,则相应的平均动能分别为  ,因分子内原子的振动除动能外还有势能,且两者在一个周期内的平均值相等,故对于每一个振动自由度,还有 的平均势能。于是,分子的平均总能量为 ,对于理想气体,因分子间无相互作用,其内能就是上述分子平均能量与总分子数的乘积,只与温度有关,其热容量则与温度无关。气体分子能量按自由度的均分通过分子间的频繁碰撞得以建立和维持。外界供给气体的能量,通过器壁与气体分子以及气体分子之间的碰撞分配到各自由度上。对于液体和固体,能量按自由度均分是通过分子间很强的相互作用而实现的。 能量均分定理在经典物理范围内适用,要求能量可以连续地变化,它的困难也正源于此。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。