1) cascade hydropower project
梯级水电工程
1.
In this paper,in a regulated temperature calculation method recommended on the basis of considering cascade hydropower project superposition effects of artificial neural network model,constructed the "three-layered artificial neural network model;statistical methods,Zhu Bofang s methods and .
在规范推荐水温计算方法基础上,采用考虑梯级水电工程叠加影响的人工神经网络模型,构造了"三层人工神经网络模型-统计方法-朱伯芳法-东勘院法"联合预测水温的综合经验模型。
2) supergiant cascaded water resources and hydropower engineering
特大型梯级水利水电工程
4) cascade hydropower
梯级水电
1.
Multiagent-based cascade hydropower joint operating and scheduling decision support system
基于多智能体的梯级水电联合运行决策支持系统
2.
An optimal operation system of cascade hydropower stations in local power network,which includes system function,buildup,and module design methods,is studied and designed in order to satisfy the demands of cascade hydropower stations optimal management in local electric power network.
为适应地方电网对其所辖的梯级小水电优化调度管理的需要,研究设计了地方电网梯级水电优化调度系统,具体包括系统功能、系统组成、各个模块的设计方法以及结合实际的系统实现。
3.
This paper deals with the problems and the opportunities of cascade hydropower development of the Upper Yellow River.
本文针对黄河上游水电开发的机遇与问题,采用定性与定量相结合的方法,全面分析黄河上游梯级水电开发的效益、区域联网及水电开发企业竞争力的增强等问题。
5) cascaded hydropower stations
梯级水电
1.
The bidding model of cascaded hydropower stations considering reserve service in day-ahead market;
考虑备用的梯级水电站日前竞价模型
2.
It is a common phenomenon that the investors of cascaded hydropower stations may not be identical in China.
目前,我国普遍存在同一流域梯级水电站投资主体不统一的现象,当代表各自投资主体利益的梯级水电站单独参加竞争性电力交易时,会导致梯级水电资源配置的低效性。
6) cascade hydropower station
梯级水电站
1.
Combined transaction strategies for cascade hydropower stations in power markets;
电力市场中梯级水电站组合交易策略研究
2.
Research on the short-term optimization schedules of cascade hydropower station based on the time-of-use electricity price on DSM;
DSM分时电价下梯级水电站短期优化运营的研究
3.
Power parameter remote detecting system for cascade hydropower station;
梯级水电站电力参数远程监测系统研究
补充资料:大甲溪梯级水电站
台湾省水能资源最丰富又得到充分开发的梯级水电站。位于台湾中西部。大甲溪发源于中央山脉,向西注入南海,全长124km,平均坡降1:60。流域面积1272km2,年雨量1500~2500mm之间。流域地形可分成三区:上游段开扩平坦,森林茂密;中游段多山,河道狭窄,对水电开发十分有利;下游段为大片平原和台中市等工业城市,需要灌溉和供水。自20世纪50年代初开始,得到重点开发,到70年代末,全溪流已建成4座梯级水电站和1座供工农业用水的水库(见图),其主要特性指标见表。
梯级中各电站总装机容量达87.4kW。大甲溪的开发,不仅为地区工农业提供了大量电力,还为防洪和农田灌溉、城市供水等发挥了重大作用。
梯级中各电站总装机容量达87.4kW。大甲溪的开发,不仅为地区工农业提供了大量电力,还为防洪和农田灌溉、城市供水等发挥了重大作用。
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