1) linear compensation of regular valve
调节阀线性补偿
2) pressure compensator spool adjustment
压力补偿器滑阀调节
3) compensation dispatch
补偿调节
1.
The successful operation of compensation dispatch among hydro-power plants greatly depends on the reasonable allocation of compensation benefits in market environment.
针对电力市场中,水电厂间补偿效益的合理分摊将成为补偿调节能否顺利开展的关键问题,借助于合作博弈中的估值理论,提出了基于Shapely值的补偿效益分摊方法。
2.
Based on the theory and methods of compensation dispatch, the power generation compensation benefits of cascade hydroelectric power stations on Yellow River upstream are studied by using principle of system science.
在分析补偿调节原则和方法的基础上 ,利用大系统理论研究黄河梯级水电站群电量补偿效益问题。
4) compensation regulation
补偿调节
1.
According to the algorithm and applying Object Oriented Technology, the related compensation regulation model of cascaded hydropower stations is established.
根据该算法应用面向对象技术编制了相应的梯级水电站群补偿调节电算模型,并且在建模过程中充分考虑了模型的通用性和实用性。
5) compensative regulation
补偿调节
1.
Based on the results of reservoirs compensative regulation in main stream of the Yellow River, combined qualitative with quantitative analysis, active and negative functions to environment on mid-downstream of the Yellow River were impersonality discussed by Longyangxia and Liujiaxia reservoirs regulation.
基于黄河干流水库群补偿调节的结果,结合定性与定量分析,客观论述了龙刘两库补水对黄河中下游环境产生的正面和负面影响。
2.
According to the principle of optimal compensative regulation of water power stations and the feature of hydropower systems, this paper formulates a model of compensative regulation of water power stations.
通过对电力系统水电站群联合补偿调节原理的分析和研究,建立了水电站群联合补偿调节模型;为了提高基因算法的计算效率和精度以及改善其全局收敛性能,结合水电补偿问题的目标函数,构造了基因算法的动态变指数适应度函数,在标准基因算法中,引入了移民操作,隐含了最优个体保护策略;给出了基于基因算法的电力系统水电站群联合补偿调节新方法。
6) compensation adjustment
补偿调节
1.
An algorithm of man machine interaction based on equal power compensation adjustment is proposed to solve the difficulties in the application of the model.
本文针对黄河干流水库联合调度建立了模拟优化模型,考虑到模型特点及求解困难,文中提出了基于等出力试算,考虑库群补偿调节的人机对话算法,以实现对复杂水库群系统的模拟仿真,寻求水库联合调度的“满意策略
2.
Considering the features of multiannual reservoir, this paper establishes a compensation adjustment and joint operation model, and presents an algorithm of man-machine interaction, which is based on equal power compensation adjustment calculating and attended by decision makers.
结合多年调节水库特点,本文建立了多年调节水库补偿调节联合运行模型,提出了一种基于等出力补偿调节计算、决策者参与的人机对话算法,通过实例计算表明,该算法具有计算速度快、占用内存少、决策者参与计算等优点,是解决多年调节水库联合运行计算的有效途径,具有重要推广、实用价值。
补充资料:溢流阀、顺序阀、减压阀的比较
溢流阀 | 减压阀 | 顺序阀 | ||
控制油路的特点 | 通过调整弹簧的压力控制进油路的压力,保证进口压力恒定,p2=0 | 通过调整弹簧的压力控制出油口的压力,保证出口压力p2稳定 | 直控式-通过调定调压弹簧的压力控制进油路压力;夜控式-由单独油路控制压力 | |
出油口情况 | 出油口与油箱相连 | 出油口与减压回路相连 | 出油口与工作回路相连 | |
泄漏形式 | 内泄式 | 外泄式 | 内泄式 | |
进油口状态及压力值 | 常态 | 常闭(原始状态) | 常开(原始状态) | 常闭(原始状态) |
工作状态 | 进出油口相通,进油口压力为调整压力 | 进油口压力低于出油口压力,出油口压力稳定在调定值上 | 进出油口相通,进油口压力允许继续升高 | |
联接方式 | 并联 | 串联 | 实现顺序动作式串联作卸荷阀用时并联 | |
功用 | 定压、溢流或安全作用限压、稳压、保压 | 减压、稳压 | 不控制系统的压力,只利用系统的压力变化控制油路的通断 | |
进油腔压力p1控制阀芯移动 | 出油腔压力p2控制阀芯移动 | 进油腔压力p1控制阀芯移动 |
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