Method of Calculating the Distribution of Water Pressure on Cushion Structure of Pipeline of Hydropower Station

LIU Jing; YAO Shuan-xi; SUN Chun-hua; WEI Xiao-juan

doi:10.11988/ckyyb.20181320

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Journal of Changjiang River Scientific Research Institute ›› 2020, Vol. 37 ›› Issue (4) : 122-126. DOI: 10.11988/ckyyb.20181320

HYDRAULIC STRUCTURE AND MATERIAI

Method of Calculating the Distribution of Water Pressure on Cushion Structure of Pipeline of Hydropower Station

LIU Jing, YAO Shuan-xi, SUN Chun-hua, WEI Xiao-juan

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Abstract

Identifying the values of water pressure distributed on the cushion structure of pipeline is of vital significance in the design of hydropower station. In association with the postprocessing of ANSYS, we present four methods of calculating the water pressure distribution on concrete, steel plate and non-cushioned zone using finite element software. Corresponding calculation method can be selected according to the complexity of the structure to be calculated. Among the four methods, the equivalent force method can be used to calculate the distribution of steel plate and concrete in holistic complex 3D model. Being convenient and reliable, the method solves the problem of analyzing the internal water pressure of the whole structure encountered in simplified 2D simulation.

Key words

water pressure / cushion structure / concrete / steel plate / distribution / pipeline of hydropower station

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LIU Jing, YAO Shuan-xi, SUN Chun-hua, WEI Xiao-juan. Method of Calculating the Distribution of Water Pressure on Cushion Structure of Pipeline of Hydropower Station[J]. Journal of Changjiang River Scientific Research Institute. 2020, 37(4): 122-126 https://doi.org/10.11988/ckyyb.20181320

References

[1] 阳芳,伍鹤皋.大型水轮机蜗壳结构动静力分析[J].武汉大学学报(工学版),2004,37(5):46-49.
[2] 刘波,刘健华,伍鹤皋.充水保压蜗壳三维非线性仿真与承载力研究[J].水力发电学报,2013,32(2):228-232.
[3] 马震岳,张运良,陈婧,等.巨型水轮机蜗壳软垫层埋设方式可行性论证[J].水力发电,2006,32(1):28-32.
[4] 付洪霞,马震岳,董毓新.水电站蜗壳垫层结构研究[J].水利学报,2003,34(6):85-88.
[5] 宋艳清.大型水电站厂房弹性垫层蜗壳结构研究[J].水利与建筑工程学报,2011,9(2):20-23.
[6] 江畅, 伍鹤皋,陈鹏.水电站垫层蜗壳外围混凝土结构受力分析[J].水电能源科学,2012(12):90-93.
[7] 王胜.水电站蜗壳弹性垫层作用的简化计算[J].水力发电学报, 2000(3):23-28.
[8] 吴东.在内水压力作用下设软垫层的坝内钢管应力问题的一种解法[J].广东水利水电,2003(1):15-16.
[9] 张运良,马震岳,程国瑞,等.水轮机蜗壳不同埋设方式的流道结构刚强度分析[J].水利学报,2006,37(10):1206-1211.
[10]马玉岩,龚少红,王蕊.某水电站蜗壳不同结构型式受力特征比较分析[C]∥第八届全国水电站压力管道学术会议.成都:中国电建集团成都勘测设计研究院有限公司,2014:362-367.
[11]李守义,杨阳,梁倩,等.垫层的E/d对水电站蜗壳结构的影响分析[J].应用力学学报,2015(1):145-150.
[12]于磊,夏辉.水电站垫层蜗壳结构应力及配筋分析[J].三峡大学学报(自然科学版),2013,35(4):32-36.
[13]张嘉,简政,罗士梅.水轮机垫层蜗壳数值模拟研究[J].水力发电,2009,35(6):50-52.
[14]叶先磊,史亚杰.ANSYS工程分析软件应用实例[M].北京:清华大学出版社,2003.
[15]同济大学航空航天与力学学院基础力学教学研究部.材料力学[M].上海:同济大学出版社,2005.
[16]范钦珊.材料力学[M].北京:清华大学出版社,2006.