1) power distribution theorem
功率分布理论
1.
This paper develops a computation model of transmission cost based on power distribution theorem (power distribution theorem is that the consumed power for arbitrary branch of the electrical network equals the summation of elements provided by each source with different distribution coeffi.
基于功率分布理论(电网中任意支路消耗的功率为具有不同分布系数的电源提供的功率分量的代数和)和支路输电费用守恒原则(流入支路的费用等于流出的费用),建立输电成本计算模型,对各节点的输电成本进行了定量分析,指出网络等值前后的输配电成本在被等值网络中有可能发生变化,并通过IEEE30节点算例验证了这一结论。
2.
This paper develops a computation model of transmission cost based on power distribution theorem ( power distribution theorem is that the .
本文基于功率分布理论(即电网中任意支路消耗的功率为具有不同分布系数的由电源提供的功率分量的代数和。
3.
This paper develops a calculation model of transmission cost based on power distribution theorem and quantitative analyze the transmission cost of each node in the power network.
论文基于电网功率分布理论和支路费用守恒原理,在电力网络断面潮流已知的条件下,建立输电成本计算模型,分别计算等值前后网络中各节点电价,比较等值前后含有电源的网络节点成本,并指出有源电网在等值过程中输电成本的计算结果会发生变化。
2) probability distribution theroy
概率分布理论
3) power distribution
功率分布
1.
The article simply analyses the relationship of pitch circle diameter to mix resistance as well as its effect to heat and furnace power distribution.
简要分析了电炉极心圆与炉料电阻的关系,极心圆直径对炉内功率分布及热分布的影响,通过长期的摸索,认为12。
2.
So based on this foundation, a novel nodal price method based on power distribution method is proposed.
在仅考虑输电损耗的前提下,发电厂的售电收入应与用户端的支出相等,在此基础上,基于功率分布方法提出了节点电价修正新方法。
3.
According to theory of high frequency AC pulse density modulation, the harmonic analysis approach and simulating model used in high frequency AC power distribution system of electric vehicle is proposed.
根据高频交流脉冲密度调制理论 ,提出了一种用于电动汽车高频交流功率分布系统的谐波分析方法和仿真模型。
4) Power theory
功率理论
1.
Analysis and improvement of the universal power theory based on periodic function space;
基于周期函数空间的通用功率理论分析与改进
5) theoretical power
理论功率
6) power consumption distribution
功耗分布率
补充资料:相对光谱功率分布
分子式:
CAS号:
性质:相对光谱功率分布S(λ)或P(λ)表示光谱密度的相对值与波长之间的函数关系。相对光谱功率分布常用来表征光源的光谱能量特性。
CAS号:
性质:相对光谱功率分布S(λ)或P(λ)表示光谱密度的相对值与波长之间的函数关系。相对光谱功率分布常用来表征光源的光谱能量特性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条