1)Xiaolangdi Hydropower Station小浪底水电站
1.Analyzing Frequency Adjustment Function of Speed Governor of Turbine Under Different Control Modes in Xiaolangdi Hydropower Station;浅析小浪底水电站水轮机调速器的频率调整功能
2.Analysis on the Causes of the Failure of Ring Gate Jam Signal in Xiaolangdi Hydropower Station;小浪底水电站筒阀发卡信号出现原因分析
3.Application of the Turbine Efficiency-cavitation Measurement System in Xiaolangdi Hydropower Station;水轮机效率空蚀测量系统在小浪底水电站的应用
英文短句/例句
1.Handling of Dispute for Imported Turbine Supply Contract in Xiaolangdi Water Power Station;小浪底水电站进口水轮机供货合同争议的处理实践
2.Experiments of Anchorage and Shotcrete Support and Quality Control for the Tailwater Canal of Xiaolangdi Hydropower Station小浪底电站尾水渠喷锚支护试验及施工质量控制
3.Project claim and claim processing during construction of Xiaolangdi Water Control Project on Yellow River;黄河小浪底水利水电工程索赔及其处理
4.Optimal Design of Xiao Langdi Hydraulic Power Plant Computer Supervision System;小浪底水电厂计算机监控系统优化设计
5.Reform of Guide Vane Step-closure Device of 8# Unit at Xiaolangdi Equalizing Power Station小浪底反调节电站8号机组导叶分段关闭装置改造
6.Installation of Working Radial Gate and Hydraulic Hoist of Bottom Sluice of Xiaowan Hydropower Station小湾水电站放空底孔工作弧门及启闭机安装
7.Research on Temperature Control Scheme of Foundation Slab for Powerhouse of Small-scale Hydropower Plant小型水电站厂房主机间底板温控方案研究
8.The key water projects at the Three Gorges on the Yangtze River and at Xiaolangdi on the Yellow River长江三峡和黄河小浪底水利枢纽工程
9.Regulation of density flow routing of Xiaolangdi reservoir in Yellow river浅析黄河小浪底水库异重流演进规律
10.A Crucial Project for Harnessing the Yellow River:Xiaolangdi Multi-purpose Dam Project治理黄河的关键工程——小浪底水利枢纽
11.Summary on the Assembly Technology of Generator Stator Core in Xiaolangdi Power Station小浪底发电机定子铁心装配工艺总结
12.Study of Pressure Control Methods Through Impounding Water for the Gates of the Xiaolangdi Reservoir;小浪底水利枢纽水工闸门充水平压方式研究
13.Influence of Xiaolangdi Reservoir Impoundment on the Precipitation in Reservoir Area and Surrounding小浪底水库蓄水对库区及周边降水的影响
14.Studies on the Spatial-temporal Variation and Biological Integrity of Macroinvertebrate in the Xiangxi River, and the Impact of Small Hydro Power on Its Communities;香溪河大型底栖动物时空动态、生物完整性及小水电站的影响研究
15.Hoisting and Installation of the Arc Gate and Embedded Part of the No.1 Low Diversion Tunnel in the Xiaowan Hydropower Station小湾水电站1号导流底孔弧形工作门及埋件吊装
16.Fog Days Variation Characteristics of Xiaolangdi Reservoir Before and After Impoundment小浪底水库蓄水前后库区雾日变化特征
17.Influence of Climate Change on Ecology and Agriculture After Xiaolangdi Reservoir Sluicing小浪底水库蓄水后气候变化对生态、农业的影响
18.Xiaolangdi Reservoir on the Yellow River:technologies and equipment for deepwater sediment treatment黄河小浪底水库深水泥沙处理技术与装备构想
相关短句/例句
Xiaolangdi Hydroelectric Plant小浪底电站
3)Xiaolangdi hydropower plant小浪底水电厂
1.Analysis on service power and the operation of Xiaolangdi Hydropower Plant;小浪底水电厂厂用电结构及其运行分析
2.The black-startup test on No.3 generating unit of Xiaolangdi Hydropower Plant;小浪底水电厂3号机组黑启动试验
3.The function and its realization of local stability control devices for Xiaolangdi Hydropower Plant;小浪底水电厂区域稳定控制装置功能及实现
4)Xiaolangdi Reservoir小浪底水库
1.Analysis of water quality change characteristic and influence in Xiaolangdi Reservoir;小浪底水库水质变化特点及影响分析
2.Influence of the Xiaolangdi Reservoir to the Organic Pollution of Downstream Section;小浪底水库对其以下河段有机污染的影响
3.Simple analysis on the influence of Xiaolangdi Reservoir impounding to the coal mined-out area of Jiyuan Section in reservoir area;浅析小浪底水库蓄水对库区济源段煤矿采空塌陷区的影响
5)the Xiaolangdi Reservoir小浪底水库
1.Study on Desilting System of Auto-Suction Pipe of the Xiaolangdi Reservoir;小浪底水库自吸式管道排沙系统研究
2.Analysis on Operation of the Xiaolangdi Reservoir;小浪底水库运用情况分析
3.Study on Shearing Strength of Rock Mass Joints on the West Side Slope of Fengyu Gully of the Xiaolangdi Reservoir;小浪底水库风雨沟西侧边坡岩体节理抗剪强度研究
6)Xiaolangdi hydropower plant小浪底水力发电厂
1.According to electric power oscillation,abnormal decrease and increase in the process of governing system operation at Xiaolangdi hydropower plant.介绍了小浪底水力发电厂调速系统出现的功率波动、功率异常升高和降低等运行不稳定的情况,提出了预防措施,以及对机组控制系统设计中的改进建议。
2.Discussions on the protection of single phase earthing of the generator s stator in Xiaolangdi Hydropower Plant;定子绕组的单相接地是发电机最常见的故障之一,为此,小浪底水力发电厂发电机定子单相接地保护采用了双频式保护,即用基波零序电压原理保护距机端约80%的定子绕组,而用3次谐波电压原理保护中性点附近的定子绕组。
延伸阅读
水电站升压开关站 接受和分配水轮发电机组发出的电能,经升压后向电网或负荷点供电的高压配电装置的场所。由变压器、开关设备、隔离开关、互感器、避雷器、母线装置和有关建筑结构等组成(见图)。电能经过主变压器升高至规定的电压后,通过开关站进行远距离输电。 变压器场 装设主变压器的地方,有两类布置方式:①屋外布置。根据水电站厂房的形式、电站容量大小和枢纽布置的特点而异,有的布置在厂房与坝之间,有的在尾水平台上,有的在主厂房的一端或顶部,也有布置在靠近主厂房的山坡之上。②屋内布置。对地下式和坝内式厂房,目前趋向于布置在平行于主厂房的地下洞室或坝内廊道内。如果开关站也布置在地下洞室内时,变压器场应紧靠开关站并用隔墙分隔。 水电站主变压器场,一般应尽可能靠近主厂房,以缩短发电机电压母线,减少电能损失,并应注意防火、防爆、防雷、防水雾、防雪和满足通风冷却以及便于设备运输和主变压器的安装检修等。 开关站 按电气设备的装置地点可分为屋外与屋内配电装置两大类。 屋外配电装置 根据电气设备和母线高度又可分为低型、中型、半高型和高型。①低型布置:电气设备直接放在地面基础上,母线布置的高度也比较低,为了保证安全距离,设备周围设有围栏。低型布置由于占地面积大,在水电站很少采用。②中型布置:所有电气设备装在一定高度的支架上,使带电部分对地保持必要高度,母线布置水平高于电气设备的水平面。中型布置在中国水电站中具有较成熟的运行经验,已普遍采用。③半高型和高型布置:电气设备和母线分别装在几个不同高度的水平面上,并且重叠布置。将母线与断路器、电流互感器等重叠布置称为半高型。将一组母线及母线隔离开关与另一组母线及母线隔离开关重叠布置称为高型布置(见彩图)。高型布置的缺点是钢材消耗大,操作和检修不方便。半高型布置的缺点也类似。但高型布置的最大优点是占地少,一般约为中型的一半,由于逐渐妥善地解决了操作和检修困难的技术问题及适应于水电站枢纽地形陡峻的条件,因此在水电站已广泛采用。有时还根据地形条件采用不同地面高程的阶梯型布置,以进一步减少占地和节省开挖工程量。 屋内配电装置 结合水电站枢纽布置的特点,将110kV和220kV电气设备布置在屋内,各种间隔距离比屋外布置小,故占地面积也小。其土建费用比屋外布置高,且建设时间长,但它不受污秽恶劣气候影响。有时为降低建筑费用将部分设备仍放在屋外。当水电站的开关站布置在地下或坝内时,称洞内布置,也属于屋内布置。 六氟化硫(SF6)全封闭组合电器配电装置 以SF6全封闭组合电器所组成的高压配合装置。SF6全封闭组合电器是以SF6气体作为绝缘和灭弧介质,以优质环氧树脂绝缘子作支撑的新型成套高压电器。由母线、隔离开关、接地开关、互感器、避雷器、电缆终端等各元件制成不同接线的标准独立结构,即可适应不同主接线的配电装置。它的优点是占地面积和占空间都更小,运行安全可靠,检修间隔周期长,噪音水平低,更适用于深山峡谷的大型水电站和屋内配电装置。 参考书目 华中工学院主编:《发电厂电气部分》,水利电力出版社,北京,1984。
