ZPG-TBL Re=2800-6650: Snapshot #263. Type: Velocity U Field
Juan Sillero

tbl2-HR-Prod.263.u.h589.91GB
Type: Dataset
Tags: fluid mechanics, boundary layer, turbulence, simulations

Bibtex:
=======================================================================
            INFORMATION ABOUT THE DNS DATABASE
         (HDF5 FILES)
=======================================================================

This directory tree contain some of the restart files of a direct 
numerical simulations of fully developed ZPG Boundary Layer flow 
(Re_theta=2780-6650). Details are offered below.

The algorithm used is presented in: 

- M. P. Simens, J. Jimenez, S. Hoyas, Y. Mizuno
  "A high-resolution code for turbulent boundary layers"
  Journal of Computational Physics
  Volume 228, Issue 11, 20 June 2009, Pages 4218-4231 

- G. Borrell, J.A. Sillero, J. Jimenez 
  "A code for direct numerical simulation of turbulent boundary layers  
  at high Reynolds numbers in BG/P supercomputers" 
  Computers & Fluids, Volume 80, 10 July 2013, Pages 37-43 


The data is discussed in:

- J.A. Sillero, J. Jimenez, R.D. Moser 
  "One-point statistics for turbulent wall-bounded flows at Reynolds 
  numbers up to \delta^+pprox2000"  
  Phys. Fluids 25, 105102 


-----------------------------------------------------------------------
                     STRUCTURE OF THE FILES:
-----------------------------------------------------------------------

The files are written in HDF5 format, which is supported by most of the 
mathematical programs. For programming languages, libraries can be 
downloaded for C, C++, Fortran 90, and Java interfaces.

The primitive variables {u,v,w,p} are stored in Fourier space as:
(kz,ny,nx) ---> ( Fourier - Physical -Physical )

For instance, one file contains:

Re        Dataset {1} : Inverse of the viscosity used in the code,
          which defines the scaling in which the code works.
Variable  Dataset {SCALAR} : Variable recorded "u", "v", "w" or "p".
procs     Dataset {536}  : Number of nodes used to run the simulation.
           (first element of the vector!)

cfl       Dataset {1}   : Courant–Friedrichs–Lewy condition at which the
        simulation was run. 
dt        Dataset {1}   : Time step in code units for this flow realization.
tiempo    Dataset {1}   : Time stamp in code units for this flow realization.
timeinit  Dataset {1} : Initial time stamp in code units (=0).

lx        Dataset {1}   : Defines the streamwise length Lx of the box, in code units.
ly        Dataset {1}   : Defines the wall-normal length Ly of the box, in code units.
lz        Dataset {1}   : Defines the spanwise length Lz of the box, in code units.
nx        Dataset {1}   : Number of collocation points in the streamwise direction.
ny        Dataset {1}   : Number of collocation points in the wall-normal direction.
nz2       Dataset {1}   : Half the number of complex Fourier Gallerkin modes in z-> K_z[0:nz2]

We use the 2/3 dealiasing rule in z, so the number of collocation points in those directions are 3/2 
times the number of Fourier Gallerkin modes, and the extra modes are padded with zeroes. 
                     

xout      Dataset {1}       : Location of the recycling plane.
um        Dataset {536} : Mean streamwise velocity profile in code units at the recycling
             station "xout".
y         Dataset {537} : Non-uniform grid for the wall-normal distance; in code units.
              Note that, because of the staggered grid: y=(-y1,0,y1,y2,....)
value     Dataset {15361, 536, 2730}: Primitive variable in code units. The array is stored in single-precision
           as [1:2*(nz2+1),1:Ny,1:Nx], equivalent to the complex array [Kz,Ny,Nx]
   
SKETCH: 

            ------v2------      * y(3)=y1
            |            |
   u2-----> x    o w2,p2 x -----> 
            |            |        
            |            |           
==================v1=========== * ======== y(2)=0;
            |            |        
            |            |        
   u1-----> x    o w1,p1 x ----->      
            |            |
            --------------      * y(1)=-y1


Before final publication of a paper citing these data, please check this
site (http://torroja.dmt.upm.es/turbdata/blayers/high_re) for an up-to-date reference.

Please report any problems with the data, queries or doubts to J.A. Sillero, 
sillero@torroja.dmt.upm.es

Send Feedback Start
   0.000005
DB Connect
   0.000567
Lookup hash in DB
   0.000865
Get torrent details
   0.000750
Get torrent details, finished
   0.000786
Get authors
   0.000005
Select authors
   0.000744
Parse bibtex
   0.001864
Write header
   0.000660
get stars
   0.000541
home tab
   0.003604
render right panel
   0.000013
render ads
   0.000054
fetch current hosters
   0.000760
Done