• DocumentCode
    1672564
  • Title

    Investigation on existence and evolution of attachment saddle point structure of 3-D separation in juncture flow

  • Author

    Zhang, Hua ; Bo, H. ; Younis, M.Y. ; Wang, H. ; Liu, Y.L.

  • Author_Institution
    Minist.-of-Educ. Key Lab. of Fluid Mech., Beihang Univ. (BUAA), Beijing, China
  • fYear
    2012
  • Firstpage
    247
  • Lastpage
    253
  • Abstract
    The PIV experimental investigation on attachment saddle point structure of 3-D laminar separation in juncture flow has been shown in this paper. The experimental results confirmed the existence of attachment saddle point structure in juncture flow formed by different shape of models mounted on flat plate under certain Reynolds number and boundary layer conditions. The new separation structure is different from the typical separation saddle point structure that in symmetrical plane the streamlines near the surface don´t rise or separated from the surface but tend to attach to the surface, the vortex sheet does not depart from the surface but from a space singular point. Flow parameters as Reynolds number and model bluntness may influence the evolution of the separation structure from one to another. Under curtain boundary layer and model conditions, as Reynolds number is increasing the juncture flow may change from attachment saddle point structure to typical separation saddle point structure. Under curtain boundary layer and Reynolds number condition, as model bluntness is increasing the juncture flow may also change from attachment saddle point structure to typical separation saddle point structure. The attachment saddle point structure in 3-D separation flow could be taken as the generalization of Lighthill´s 3-D separation mode.
  • Keywords
    boundary layers; flow separation; flow simulation; flow visualisation; laminar flow; vortices; 3D laminar separation; 3D separation flow; Lighthill´s 3D separation mode generalization; PIV; Reynolds number; attachment saddle point structure evolution; boundary layer conditions; curtain boundary layer condition; curtain model condition; flat plate; flow parameters; juncture flow; model bluntness; model shape; separation saddle point structure; separation structure evolution; space singular point; streamlines; symmetrical plane; vortex sheet; Lead; Shape;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Applied Sciences and Technology (IBCAST), 2012 9th International Bhurban Conference on
  • Conference_Location
    Islamabad
  • Print_ISBN
    978-1-4577-1928-8
  • Type

    conf

  • DOI
    10.1109/IBCAST.2012.6177561
  • Filename
    6177561