1) Frequency of high-water and low-water
丰枯频率
2) differential rate of season demand
丰枯季节用电量差异率
1.
The concepts of differential rate of season demand, hydro-thermal electricity exchange index and risk of implementing SOU price are then presented.
提出了丰枯季节用电量差异率、水火互济指数和电网公司实施丰枯季节电价的风险度的概念,并从电力市场运行风险的角度,利用风险价值(VaR)法对实施丰枯季节电价的市场效益进行了评估。
3) Analysis of low flow frequency
枯水频率分析
4) synchronous-asynchronous encounter probability
丰枯遭遇
1.
The synchronous-asynchronous encounter probability of rich-poor precipitation was analyzed.
运用Copula方法理论构造了南水北调中线工程水源区与各受水区汛期、非汛期及全年降雨量的联合分布,并用所建模型对水源区与各受水区的丰枯遭遇进行了研究。
2.
【Objective】The research studied the joint probability distribution with two variables and analyzed the synchronous-asynchronous encounter probability of rich-poor runoff of mainstream and tributary.
【目的】研究两变量联合概率的分布问题,探讨干支流的丰枯遭遇分析方法。
6) power in rainy and sear season
丰枯出力
1.
With some hydro-power station exploiting, the hydro-power has a big proportion, it is natural to produce very different power in rainy and sear season.
云南拥有丰富的电力资源和广阔的市场,随着大型水电站的开发,云南电源水电比重偏大,不可避免地存在丰枯出力悬殊的问题。
补充资料:频率计量(见时间频率计量)
频率计量(见时间频率计量)
frequency metrology: see time and frequency metrology
口n IQ liliang顷率频率计皿(f比quency metrolo盯) 计t。见时闰
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