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Effect of Concrete Cracks on Dynamic Characteristics of Powerhouse for Giant-Scale Hydrostation 被引量:2

Effect of Concrete Cracks on Dynamic Characteristics of Powerhouse for Giant-Scale Hydrostation
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摘要 With the increase of capacity and size of the hydro-generator unit, the spiral case becomes a more super-giant hydraulic structure with very high HD value, where H and D denote water head and maximum intake diameter of spiral case, respectively. Due to the induced lower stiffness by the more giant size and adverse operation conditions, dynamic performances of the powerhouse and the supporting structure for the giant units have become more important and attracted much attention. If the manner of steel spiral case embedded directly in concrete is adopted, on some locations of the concrete surrounding the spiral case, distributed and concentrated cracks will emerge due to high tensile stress. Although the concrete is reinforced well to control the maximum crack width, definitely these cracks will reduce the local and entire stiffness of the powerhouse. Under dynamic loads such as hydraulic forces including water pressure pulsation in flow passage acting on the structure, effect of the cracks on the dynamic characteristics of the local members and entire structure needs to be evaluated. However, research on this subject is few in hydroelectric engineering. In this paper, Three-Gorge Project was taken as an example to evaluate effect of such cracks on natural frequencies and the vibration responses of the powerhouse under hydraulic and earthquake forces in detail. Results show that cracks only reduce the local structural stiffness greatly but have little effect on the entire powerhouse especially the superstructure; vibrations of powerhouse with cracks in concrete surrounding the spiral case are still under the design limits. Results in this paper have been verified by practice of Three-Gorge Project. With the increase of capacity and size of the hydro-generator unit, the spiral case becomes a more super-giant hydraulic structure with very high HD value, where Hand D denote water head and maximum intake diameter of spiral case, respectively. Due to the induced lower stiffness by the more giant size and adverse operation conditions, dynamic performances of the powerhouse and the supporting structure for the giant units have become more important and attracted much attention. If the manner of steel spiral case embedded directly in concrete is adopted, on some locations of the concrete surrounding the spiral case, distributed and concentrated cracks will emerge due to high tensile stress. Although the concrete is reinforced well to control the maximum crack width, definitely these cracks will reduce the local and entire stiffness of the powerhouse. Under dynamic loads such as hydraulic forces including water pressure pulsation in flow passage acting on the structure, effect of the cracks on the dynamic characteristics of the local members and entire structure needs to be evaluated. However, research on this subject is few in hydroelectric engineering. In this paper, Three-Gorge Project was taken as an example to evaluate effect of such cracks on natural frequencies and the vibration responses of the powerhouse under hydraulic and earthquake forces in detail. Results show that cracks only reduce the local structural stiffness greatly but have little effect on the entire powerhouse especially the superstructure; vibrations of powerhouse with cracks in concrete surrounding the spiral case are still under the design limits. Results in this paper have been verified by practice of Three-Gorge Project.
出处 《Transactions of Tianjin University》 EI CAS 2008年第4期307-312,共6页 天津大学学报(英文版)
基金 National Natural Science Foundation of China (No.50679009) Foundations for Young Teachers in Dalian University of Technology(No.893219)
关键词 giant-scale hydrostation POWERHOUSE concrete crack dynamic characteristics numerical simulation 大规模水电站 发电站 混凝土裂缝 动力学特征
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  • 1陈婧,马震岳,刘志明,谢红兵,杜申伟.三峡水电站主厂房振动分析[J].水力发电学报,2004,23(5):36-39. 被引量:24
  • 2欧阳金惠,陈厚群,李德玉.三峡电站厂房结构振动计算与试验研究[J].水利学报,2005,36(4):484-490. 被引量:42
  • 3邢景棠,周盛,崔尔杰.流固耦合力学概述[J].力学进展,1997,27(1):19-38. 被引量:238
  • 4Ohashi H.Hydraulic Machinery Book Series· Vibration and Oscillation of Hydraulic Machinery[M]. England: Avebury Technical, 1991.
  • 5Zienkiewicz O C.Coupled problems and their numerical solution[A].In:Lewis R W,Bettess P,Hinton E eds.Numerical Methods in Coupled Systems[C].John Wiley and Sons Ltd,New York,1984,236-244.
  • 6Feng Weiming,Cheng Delin.The Model Synthesis Method of Fluid-structure Coupling Vibration for Circular Symmetric Structure[A].In:Proceeding of The International Conference on Vibration Problems in Engineering[C].Vol.2,Wuhan:International Academic Publishers,1990,597 - 601.
  • 7《振动与冲击》编委会.振动与冲击手册第一卷[M].北京:国防工业出版社,1989.
  • 8张辉东等.南水北调山东万年闸泵站动力分析报告[R].济南:山东省水利局,2004.
  • 9ANSYS Release 8.0 Documentation[S].The Ansys Inc.,2005.
  • 10秦继章,马善定,伍鹤皋,匡会键.二滩水电站钢蜗壳与外围钢筋混凝土联合受力三维仿真材料模型试验研究[J].水利学报,1999,30(6):11-15. 被引量:19

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