1、 摘 要湖南镇水电站位于中国浙江省衢州市境内,钱塘江支流乌溪江上,是一个以发电为主兼有航运、灌溉,防洪、供水等综合利用效益的较大水电站。也是乌溪江两级开发中的第一级。本次设计给定了三个水库正常蓄水位方案:227m,230m,233m,根据水利动能指标,按照费用最小原则,最终选择正常蓄水位为233m。继而假定三个死水位方案:195m,197m,199m,对其进行兴利调节及水能计算,综合各方面因素选195m作为死水位最终方案。调洪演算时取防洪限制水位等于正常蓄水位为233m,根据下游防护标准(百年一遇),确定水库的防洪高水位,根据千年一遇洪水资料,确定水库的设计洪水位, 根据万年一遇洪水资料,确定
2、水库的校核洪水位,最后定出防洪高水位234.82m,相应的最大下泄流量不超过4500。设计洪水位236.01m,相应的最大下泄流量不超过6185。校核洪水位(P=0.01%)为239m,相应的最大下泄流量不超过8232。利用电力电能平衡的方法确定水电站装机容量为34万kW,四台机组,单机容量8.5万kW。厂房为坝后式厂房,主厂房总宽定为21m,总长89m。起重机选用电动双钩桥式起重机,最大起重量选2150吨,跨度选用19m。装配场长度取24m。副厂房是为保证水电站正常运行需要,设置在主厂房下游侧。主要布置各种机电辅助设备、房间、生产间和必要生活设施房间。 厂房附近布置开关站,主变等。受地形限制
3、,坝址与厂区通过公路连接,形成枢纽体系。关键词:正常蓄水位,死水位;装机容量;防洪设计;挡水建筑物;泄水建筑物;稳定;应力;水轮机;选型;厂房朗读显示对应的拉丁字符的拼音字典ABSTRACTHunan Hydropower Station is located in the town of Quzhou City in Zhejiang Province, China, Qiantang River on the Wu River tributary, is both a power-based navigation, irrigation, flood control, water supp
4、ly and other large hydropower utilization efficiency. Wuxijiang levels is the first stage of development. Given this design, three reservoir normal water level: 227m, 230m, 233m, under the water momentum indicator, in accordance with the principle of minimum cost, and ultimately select the normal wa
5、ter level is 233m. Then the program assumes that the three dead water level: 195m, 197m, 199m, its regulation and energy calculation for Hennessy, Taking all factors selected as a dead water level 195m final plan. Flood Routing flood control level when the take is equal to the normal water level is
6、233m, according to the downstream protection standards (hundred years) to determine the high water level of flood control reservoir, a flood of the Millennium data to determine the reservoir design flood level, according to one million years flood data, flood check to determine the reservoir, the la
7、st set of high flood water level of 234.82m, the corresponding maximum discharge for not more than 4500. Design flood level 236.01m, the corresponding maximum discharge for not more than 6185. Check flood level (P = 0.01%) for the 239m, corresponding to the maximum discharge for not more than 8232.
8、Using energy balance method to determine the power station installed capacity of 340,000 kW, four units, single capacity of 85,000 kW. Plant for the dam toe power house, the main plant as the total width of 21m, total length of 89m. Electric hook crane used crane, the largest selection from the weig
9、ht of 2 150 tons, span selection 19m. Field length of the assembly to take 24m. Vice-plant station to ensure the normal operation is necessary, set the downstream side in the main plant. Various electrical and mechanical auxiliary equipment, the main layout, rooms, production rooms and the necessary
10、 room amenities. Plant layout switching station near the main transformer and so on. The terrain, dam and plant connected by road to form a hub system. Key words: normal water level, dead level; capacity; flood control design; water retaining structures; discharge structure; stability; stress; turbi
11、ne; selection; plant 目 录摘 要1第一章 绪论61.1 基本资料61.1.1 地理位置61.1.2 水位与气象61.1.3 电力系统负荷资料101.1.4 工程地质101.1.5 交通状况111.2 设计任务11第二章 水能规划132.1 径流调节132.1.1 水量差积曲线132.1.1.1 水库调节性能的判断132.1.1.2 水库设计保证率142.1.1.3 水量差积曲线142.1.1.4 正常蓄水位的确定152.2 死水位的选择242.3 装机容量的选择272.3.1 最大工作容量的确定272.3.1.1 典型日负荷图及日电能累积曲线的绘制292.3.1.2 最大
12、工作容量的确定352.3.2 备用容量的确定382.3.2.1 负荷备用容量382.3.2.2 事故备用容量392.3.2.3 检修容量的确定392.3.3 重复容量的确定392.3.4 装机容量的确定392.4 电力电能平衡图402.4.1 受阻容量的确定402.4.1.1 出力限制线的绘制402.4.1.2 受阻容量402.4.2 电力电能平衡412.5 水库防洪设计432.5.1 设计标准432.5.2 调洪演算432.5.3 泄流量计算452.5.4 防洪设计成果472.6 水库调度图的绘制47第三章 枢纽布置及挡水、泄水建筑物设计513.1 枢纽布置513.1.1 坝轴线选择513.
13、1.2 坝型513.1.3 枢纽布置513.2 挡水建筑物设计513.2.1 坝顶高程确定513.2.2 坝底高程确定523.2.3 坝顶宽度523.2.4 上游折坡点高程523.2.5 基本剖面设计523.2.6 实用剖面设计533.2.7 廊道及排水布置543.2.8 荷载计算543.2.9稳定和应力分析553.3 泄水建筑物563.3.1 溢流坝剖面设计563.3.2 荷载计算583.3.3 稳定和应力分析593.3.4 消能设计603.3.5 细部构造61第四章 水电站厂房设计624.1 特征水头选择624.2 水轮机型号选择624.3 蜗壳设计654.4 尾水管设计664.5 水轮发
14、电机外形尺寸设计664.6 水轮发电机重量估算704.7 油压与调速设备选择704.8 厂房起重设备724.9 厂房布置734.9.1 厂房各层高程确定734.9.2 厂房宽度的确定754.9.2.1 主厂房宽度的确定754.9.2.2 装配场宽度的确定764.9.3 主厂房长度764.9.3.1 机组段长度764.9.3.2 端机组长764.9.3.3 装配场长度774.9.3.4 厂房总长度L774.10 副厂房以及其他的相关的尺寸见水轮机层发电机层的剖面图。774.11 油系统的布置774.12 供水系统774.13 排水系统774.14 厂区布置77附 表79参考书目8081第一章 绪
15、论1.1 基本资料1.1.1 地理位置乌溪江属衢江支流,发源于闽、浙、赣三省交界的仙霞岭,于衢县樟树潭附近流入衢江,全长170公里,流域面积2623平方公里。流域内除黄坛口以下属衢江平原外,其余均属山区、森林覆盖面积小,土层薄,地下渗流小,沿江两岸岩石露头,洪水集流迅速,从河源至黄坛口段,河床比降为1/1000,水能蕴藏量丰富。1.1.2 水位与气象1.1.2.1 水文条件 湖南镇坝址断面处多年平均流量为89.6立米/秒。实测最大洪峰流量为5440立方米/秒(1954年),千年一遇洪水总量(4日)为11亿立方米,洪峰流量为11300立方米/秒。万年一遇洪水(4日)总量16.2亿立方米/,洪峰流量16600立方米/秒。保坝洪水总量为17.2亿立方米,洪峰流量为22000立方米/秒。表1 坝址断面处山前峦水位流量关系曲线水位(m)
