• DocumentCode
    1974776
  • Title

    Research on Temperature Control and Anti-cracking Simulation for Xiaowan Concrete High Arch Dam

  • Author

    Lingfei, Xie ; Li, Yang

  • Author_Institution
    Guangxi Electr. Power Ind. Investig. Design & Res. Inst., Nanning, China
  • Volume
    5
  • fYear
    2008
  • fDate
    12-14 Dec. 2008
  • Firstpage
    1036
  • Lastpage
    1039
  • Abstract
    Thermal load is a main load just inferior to water pressure. Thermal creep stress is an important stress reference data of hydropower engineering design, and it is the important design criterion of preventing cracking. Crack will appear if thermal creep stress is beyond the allowable thermal creep stress of corresponding age of concrete, which will affect the safety of dam. Xiaowan concrete arch dam¿s temperature control and anti-cracking measure is crucial important to assure the dam¿s normal construction and safe operation as the highest double curvature arch dam being constructed. This paper adopts 3D FEM to simulate the whole process of temperature field and thermal creep stress of 22# dam section of Xiaowan high arch dam during construction. In the simulation, thermal and mechanical properties, concrete construction, temperature variation of environment, crown filling and water impoundment orders are considered. The simulation results accord with the common rules of high arch dam. The maximum transverse directional thermal creep stress and downstream directional thermal creep stress are both less than the allowable horizontal tensile stress and temperature crack will not appear. The results are valuable to the design of temperature control and anti-cracking measure.
  • Keywords
    concrete; dams; finite element analysis; safety; structural engineering; temperature control; thermal stress cracking; 3D FEM; Xiaowan concrete high arch dam; anticracking simulation; concrete; crown filling; dam safety; downstream directional thermal creep stress; horizontal tensile stress; hydropower engineering design; maximum transverse directional thermal creep stress; mechanical properties; temperature control; temperature variation; thermal load; water impoundment orders; Concrete; Creep; Data engineering; Design engineering; Hydroelectric power generation; Temperature control; Tensile stress; Thermal engineering; Thermal loading; Thermal stresses; FEM; Xiaowan high arch dam; simulation; temperature control and anti-cracking; temperature field; thermal creep stress;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Computer Science and Software Engineering, 2008 International Conference on
  • Conference_Location
    Wuhan, Hubei
  • Print_ISBN
    978-0-7695-3336-0
  • Type

    conf

  • DOI
    10.1109/CSSE.2008.97
  • Filename
    4723082