| 1. | Feasibility analysis of xiaojinxhou navigation and power complex construction
藤子沟水电站厂房设计 |
| 2. | Design code for hydropower house
水电站厂房设计规范 |
| 3. | Construction of powerhouse slope pre - stressed anchorage cable in malutang hydropower project
马鹿塘水电站厂房边坡预应力锚索施工 |
| 4. | In chapter 5 , the estimate of structure vibration in three gorges project is given
第五章对三峡水电站厂房振动问题作了分析预测。 |
| 5. | The 3 - d numerical analysis of the workshop flow - way of yangtoupu hydroelectric station in pengshui
彭水羊头铺水电站厂房流道三维数模分析 |
| 6. | Study on interaction between back powerhouse slope and arch dam of geheyan hydropower station
隔河岩水电站厂房后边坡与拱坝的相互作用研究 |
| 7. | Vibration monitoring for fresh concrete during plant foundation rock blasting at gongbo gorge hydropower station
公伯峡水电站厂房基础岩石开挖爆破对新浇混凝土振动影响监测成果 |
| 8. | To make a comparison between earthquake action and vibration action , the seismic analysis of hydropower house is carried out
另外作为比较,也进行了水电站厂房地震作用分析。 |
| 9. | In chapter 6 , the vibration design and vibration resistant constructional measure are discussed , and the powerhouse structure vibration allowed value is proposed
第六章讨论了水电站厂房抗振设计问题及减振构造措施,提出厂房结构振动允许值标准。 |
| 10. | The phenomenon of heavy turbine vibration which causes vibration of the workshop or even that of the dam in some hydroelectric power stations in china is presented
摘要介绍了我国水电站混流式机组厂房某些工作区域内振动过大的现象,并不同程度地引起水电站厂房甚至大坝的振动。 |
