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@INPROCEEDINGS{Lintermann:867477,
      author       = {Lintermann, A. and Eitel-Amor, G. and Meinke, M. and
                      Schröder, W.},
      title        = {{L}attice-{B}oltzmann {S}olutions with {L}ocal {G}rid
                      {R}efinement for {N}asal {C}avity {F}lows},
      volume       = {121},
      address      = {Berlin, Heidelberg},
      publisher    = {Springer Berlin Heidelberg},
      reportid     = {FZJ-2019-06116},
      isbn         = {978-3-642-35679-7 (print)},
      series       = {Notes on Numerical Fluid Mechanics and Multidisciplinary
                      Design},
      pages        = {583 - 590},
      year         = {2013},
      note         = {Missing Journal: = 1860-0824 (import from CrossRef Book
                      Series)},
      comment      = {New Results in Numerical and Experimental Fluid Mechanics
                      VIII / Dillmann, Andreas (Editor) ; Berlin, Heidelberg :
                      Springer Berlin Heidelberg, 2013, Chapter 69 ; ISSN:
                      1612-2909=1860-0824 ; ISBN:
                      978-3-642-35679-7=978-3-642-35680-3 ;
                      doi:10.1007/978-3-642-35680-3},
      booktitle     = {New Results in Numerical and
                       Experimental Fluid Mechanics VIII /
                       Dillmann, Andreas (Editor) ; Berlin,
                       Heidelberg : Springer Berlin
                       Heidelberg, 2013, Chapter 69 ; ISSN:
                       1612-2909=1860-0824 ; ISBN:
                       978-3-642-35679-7=978-3-642-35680-3 ;
                       doi:10.1007/978-3-642-35680-3},
      abstract     = {To analyze rhinological complaints like a reduction of
                      breathing capa- bilities, performance reduction of the
                      olfactory organ, and complaints inherited by diminished
                      heating and moisturizing functions of the human nasal
                      cavity, flow simulations with a Lattice-Boltzmann method
                      are carried out using refined Cartesian meshes to resolve,
                      e.g., the wall-bounded shear layers. This method is
                      particularly suited for flows in highly intricate
                      geometries. By using hierarchical grid refinement the
                      overall number of cells is reduced in order to improve the
                      computational efficency. Before applying the algorithm to
                      real human nasal geometries obtained from Computer
                      Tomography (CT) it is validated by simulating the flow over
                      a cylinder and over a sphere at low Reynolds numbers.},
      month         = {Nov},
      date          = {2010-11-09},
      organization  = {17th STAB/DGLR Symposium, Berlin
                       (Germany), 9 Nov 2010 - 10 Nov 2010},
      pnm          = {511 - Computational Science and Mathematical Methods
                      (POF3-511)},
      pid          = {G:(DE-HGF)POF3-511},
      typ          = {PUB:(DE-HGF)8 / PUB:(DE-HGF)7},
      doi          = {10.1007/978-3-642-35680-3_69},
      url          = {https://juser.fz-juelich.de/record/867477},
}