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天桥水电站面流界限水深研究
引用本文:王鹏涛,于国辉,赵海镜,孙东坡. 天桥水电站面流界限水深研究[J]. 华北水利水电学院学报(社会科学版), 2009, 25(5): 13-16
作者姓名:王鹏涛  于国辉  赵海镜  孙东坡
作者单位:[1]华北水利水电学院,河南郑州450011 [2]中国水利水电科学研究院,北京100044
基金项目:黄河天桥水电站除险加固工程项目(HSY-SL-194)
摘    要:通过天桥水电站除险加固工程水工模型试验,推导出了面流界限水深理论和经验计算公式,并与前期研究成果进行了对比.分析了面流界限水深的影响因素,发现当鼻坎挑角由0°变化到15°,面流界限水深逐渐降低;在护坦加长和下游水流空间性的双重影响下,面流界限水深值增大;降低河床高程或增大坎高,面流发生范围将会扩大.

关 键 词:天桥水电站  水工模型试验  面流界限水深  水力计算  影响因素

Study on the Surface Flow Critical Water Depth of Tianqiao Hydropower Station
WANG Peng-tao,YU guo-hui,ZHAO Hai-jing,SUN Dong-po. Study on the Surface Flow Critical Water Depth of Tianqiao Hydropower Station[J]. Journal of North China Institute of Water Conservancy and Hydroelectric Power(Social Sciences Edition), 2009, 25(5): 13-16
Authors:WANG Peng-tao  YU guo-hui  ZHAO Hai-jing  SUN Dong-po
Affiliation:1.North China Institute of Water Conservancy and Hydroelectric Power,Zhengzhou 450011,China;2.China Institute of Water Resources and Hydropower Research,Beijing 100044,China)
Abstract:Through hydraulic model test of Tianqiao hydropower station reinforcing project,the theoretical equation and empirical equation of the surface flow critical water depth had been researched and compared with others.Some factors affected the change of surface flow pattern and critical water depth had been analyzed.It was found that the change of critical water depth values was neglect when nose angle changed from zero degree to fifteen degrees,lengthening the protection-apron and flow expansion result in the ascent of critical water depth values,the critical water depth values would descend if the bed level is reduced,or the nose height is increased.
Keywords:Tianqiao hydropower station  hydraulic model test  surface flow critical water depth  hydraulic calculation  influencing factors
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