• DocumentCode
    3593108
  • Title

    Numerical prediction of performance drop due to cavitation in a centrifugal pump

  • Author

    Genqiqige Meng ; Lei Tan ; Shuliang Cao ; Yuchuan Wang ; Yun Xu ; Wanshi Qu

  • Author_Institution
    State Key Lab. of Hydroscience & Eng., Tsinghua Univ., Beijing, China
  • fYear
    2014
  • Firstpage
    1
  • Lastpage
    5
  • Abstract
    In order to predict cavitation performance drop of the centrifugal pump, the RNG κ-ε turbulence model and the mass transport cavitation model are applied to simulate the cavitation flows in a centrifugal pump at different flow rates. The influence of condensation coefficient of the mass transport cavitation model on numerical simulation is analysed. According to the calculation result, the value of condensation coefficient is modified. The calculated variation of pump head and efficiency at different flow rate agrees well with the experimental data. The results demonstrate that the numerical model and method can accurately predict the cavitation flows in a centrifugal pump. The cavitation flow fields in the centrifugal pump are revealed. The results show that the cavity bubbles firstly appear in the blade suction side and then develop to the middle of blade-to-blade channel. When the cavitation bubbles increase and then block the normal flow in the impeller, the pump head gradually drops. The detailed evolutions of cavitation structure in the centrifugal pump impeller are presented to provide beneficial references to the centrifugal pump optimization design.
  • Keywords
    blades; bubbles; cavitation; flow simulation; impellers; mass transfer; numerical analysis; pumps; turbulence; RNG κ-ε turbulence model; blade suction side; blade-to-blade channel; cavitation flow fields; cavitation flow prediction; cavitation flow simulation; cavitation performance prediction; cavitation structure; cavity bubbles; centrifugal pump impeller; centrifugal pump optimization design; condensation coefficient; condensation coefficient value; mass transport cavitation model; numerical model; numerical prediction; numerical simulation; performance drop; pump head; Cavitation Performance; Centrifugal Pump; Experiment; Numerical Simulation;
  • fLanguage
    English
  • Publisher
    iet
  • Conference_Titel
    Fluid Machinery and Fluid Engineering, 2014 ISFMFE - 6th International Symposium on
  • Print_ISBN
    978-1-84919-907-0
  • Type

    conf

  • DOI
    10.1049/cp.2014.1191
  • Filename
    7124112