377 : 3D jet impingement flow
| No. | 377 | Unit |
| Image Size | 256 x 256 | pixel |
| Area | 1 x 1 | cm |
| Laser Illumination | Volume | mm |
| Interval | 0.001 | sec |
| Max. Velocity | 10 | pixel/interval |
| Max. out-of-plane Velocity | ?? | % |
DATA DOWNLOAD
- The format of the images are RAW data.[64KB]
- The particle data file[100KB] contains;
(1) particle ID, (2-4) particle 3d location [x,y,z] (cm),
(5,6) particle location in Image 0 [X,Y] and
(7,8) particle location in Image 1 [X,Y] and
(9,10) particle location in Image 2 [X,Y] and
(11) maximum intensity of the particle [I].
The particle ID is unique, so that the same particle
location could be correctly tracked with using the serial particle files.
Please see the example
- The vector file[50KB] contains;
(1-3) node of the image (X,Y,Z) [cm] and
(4-6) vector (U,V,W) in the unit of [cm/s]
Please see the example
Download using HTML or
FTP
PIV Three-dimensional Standard Images #377
Generator: K. Okamoto (Univ. Tokyo)
Program: ddr.c
Date: March 27, 1998
Parameters:
Target Flow Field: Jet impinging on the Wall
Reynolds Number: 3000
2cm
------------| |------------
| 15cm/s
V
XXX
XXX
-----------------------------
Number of Particles inserted in the field 40000 Particles
Number of Particles visualized in one Image 500 Particles (average)
Diameter of Particles 5 pixel (average)
2 (standard deviation)
1 (minimum)
Maximum Velocity 12 cm/s
Target Flow field 5mm x 5mm x 5mm
Time Interval between images 1 msec
Laser Illumination Cylindrical from bottom (radius = 1cm)
Water refractive index 1.33
Wall distance 7 mm from center
orientation y-direction (simulate impinging plate)
Camera positions
#0 (x,y,z) = (5.77, -10, 0)
#1 (x,y,z) = (-2.88, -10, -5)
#2 (x,y,z) = (-2.88, -10, 5)
Small Orientation variations were considered.
^ y
|
|/
------------+---------------> x
#2 /|
/ | #1
#3 /
/z
L
Side View ^
Jet | y-axis
|
O| Particles
--------------+-----------------> x-axis
/| n=1.33(water)
==============|2mm==================
/ | n=1.33(acryl)
==============|7mm================== WALL
/ | n=1.00(air)
/ |
/ |
/ |
#2,3 | #0 camera
camera |
|
The wall surface is (y=-7mm)
Jet impinging plate is (y=-2mm)
Visualized region is (-2,-2,-2) < (x,y,z) < (2,2,2)mm
Image Files (imX???.raw)
X: camera# (0-2)
???: serial# (000-200) Total 200msec
Image size 256x256 pixel (8bit:256)
Calibration File (imX999.raw)
Particles (Total 125 particles)
x = -0.2, -0.1, 0, 0.1, 0.2 cm
y = -0.2, -0.1, 0, 0.1, 0.2 cm
z = -0.2, -0.1, 0, 0.1, 0.2 cm
Vector files (vec???.dat)
x y z u v w
-0.80 -0.80 -0.80 0.17542 -4.51977 0.01204
-0.80 -0.80 -0.60 -0.18245 -4.11870 -0.26516
-0.80 -0.80 -0.40 -0.78761 -3.38484 -0.41633
unit: x,y,z [cm]
u,v,w [cm/s]
Particle Files (ptc???.dat)
#1 camera #2 camera #3 camera intensity
ID x y z X Y X Y X Y
4 -0.301 0.584 0.893 147.61 64.91 95.55 65.10 53.07 65.92 208.18
6 -0.898 1.266 -0.258 0.00 0.00 0.00 0.00 46.22 0.15 208.69
8 1.178 0.886 0.149 249.88 38.07 251.10 35.42 219.99 32.46 191.52
9 0.720 -1.242 -0.530 183.76 252.88 201.24 254.40 0.00 0.00 211.21
unit: x,y,z [cm]
X,Y [pixel]
The particle ID is unique number, therefore, the same particle could
be easily tracked with checking the ID for serial particle files.
If you have any questions, please contact Dr. Okamoto
(okamoto@tokai.t.u-tokyo.ac.jp)