Index of /turbdata/agard/chapter6/SHL03
Reference paper
"D. OSTER & I. WYGNANSKI ""The forced mixing layer between parallel streams"". "
J. Fluid Mech. (1982), vol 123, pp. 91-130.
N.B. data reconstructed from digitalization of original printed figures.
Figures 6a, 6b, 7b, 7c, 16, 35 & 36 cannot be digitalized for each station.
Figures
UF=UnForced mixing layer / f=frequency of the forced mixing layer.
Mixing Layer data
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.3). y0.10 c01
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.3). y0.50 c02
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.3). y0.95 c03
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.4). y0.10 c04
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.4). y0.50 c05
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.4). y0.95 c06
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.5). y0.10 c07
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.5). y0.50 c08
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.5). y0.95 c09
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.6). y0.10 c10
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.6). y0.50 c11
_Figure 3 Spreading of the mixing layer (UF, U1/U2=0.6). y0.95 c12
_Figure 5 Momentum Thickness vs x (UF, U1/U2=0.3) c13
_Figure 5 Momentum Thickness vs x (UF, U1/U2=0.4) c14
_Figure 5 Momentum Thickness vs x (UF, U1/U2=0.5) c15
_Figure 5 Momentum Thickness vs x (UF, U1/U2=0.6) c16
_Figure 6.a Mean profile of U (UF, U1/U2=0.3). x=200mm c17
_Figure 6.a Mean profile of U (UF, U1/U2=0.3). Other x stations c18
_Figure 6.a Distribution of u' (UF, U1/U2=0.3). x=200mm c19
_Figure 6.a Distribution of u' (UF, U1/U2=0.3). Other x stations c20
_Figure 6.b Mean profile of U (UF, U1/U2=0.4). x=200mm c21
_Figure 6.b Mean profile of U (UF, U1/U2=0.4). Other x stations c22
_Figure 6.b Distribution of u' (UF, U1/U2=0.4). x=200mm c23
_Figure 6.b Distribution of u' (UF, U1/U2=0.4). Other x stations c24
_Figure 6.c Mean profile of U (UF, U1/U2=0.5). x=200mm c25
_Figure 6.c Mean profile of U (UF, U1/U2=0.5). Other x stations c26
_Figure 6.c Distribution of u' (UF, U1/U2=0.5). x=200mm c27
_Figure 6.c Distribution of u' (UF, U1/U2=0.5). Other x stations c28
_Figure 6.d Mean profile of U (UF, U1/U2=0.6). Mean profile c29
_Figure 6.d Distribution of u' (UF, U1/U2=0.6). x=200mm c30
_Figure 6.d Distribution of u' (UF, U1/U2=0.6). Other x stations c31
_Figure 7.a Distribution of v' (UF, U1/U2=0.6). x=300mm c155
_Figure 7.a Distribution of v' (UF, U1/U2=0.6). x=500mm c156
_Figure 7.a Distribution of v' (UF, U1/U2=0.6). x=700mm c157
_Figure 7.a Distribution of v' (UF, U1/U2=0.6). x=900mm c158
_Figure 7.a Distribution of v' (UF, U1/U2=0.6). x=1100mm c159
_Figure 7.a Distribution of v' (UF, U1/U2=0.6). x=1300mm c160
_Figure 7.a Distribution of v' (UF, U1/U2=0.6). x=1500mm c161
_Figure 7.b Distribution of w' (UF, U1/U2=0.6).upper courb c162
_Figure 7.b Distribution of w' (UF, U1/U2=0.6).lower courb c163
_Figure 7.c Distribution of u'v' (UF, U1/U2=0.6). upper courb c164
_Figure 7.c Distribution of u'v' (UF, U1/U2=0.6). lower courb c165
_Figure 8.a Mean profile of U (f=30Hz, U1/U2=0.6). x=100mm, A= 0 c166
_Figure 8.a Mean profile of U (f=30Hz, U1/U2=0.6). x=100mm, A= 0,5 c167
_Figure 8.a Mean profile of U (f=30Hz, U1/U2=0.6). x=100mm, A= 1,0 c168
_Figure 8.a Mean profile of U (f=30Hz, U1/U2=0.6). x=100mm, A= 1,5 c169
_Figure 8.b Distribution of u'(f=30Hz, U1/U2=0.6). x=100mm ,A =0 c170
_Figure 8.b Distribution of u'(f=30Hz, U1/U2=0.6). x=100mm ,A =0,5 c171
_Figure 8.b Distribution of u'(f=30Hz, U1/U2=0.6). x=100mm ,A =1,0 c172
_Figure 8.b Distribution of u'(f=30Hz, U1/U2=0.6). x=100mm ,A =1,5 c173
_Figure 8.c Distribution of v'(f=30Hz, U1/U2=0.6). x=100mm, A=0 c174
_Figure 8.c Distribution of v'(f=30Hz, U1/U2=0.6). x=100mm, A=0,5 c175
_Figure 8.c Distribution of v'(f=30Hz, U1/U2=0.6). x=100mm, A=1,0 c176
_Figure 8.c Distribution of v'(f=30Hz, U1/U2=0.6). x=100mm, A=1,5 c177
_Figure 10 Spreading of the m.l. /A=0.5/f=40Hz/r=0.4/y0.10 c38
_Figure 10 Spreading of the m.l. /A=0.5/f=40Hz/r=0.4/y0.95 c39
_Figure 10 Spreading of the m.l. /A=1.0/f=40Hz/r=0.4/y0.10 c40
_Figure 10 Spreading of the m.l. /A=1.0/f=40Hz/r=0.4/y0.95 c41
_Figure 10 Spreading of the m.l. /A=1.5/f=40Hz/r=0.4/y0.10 c42
_Figure 10 Spreading of the m.l. /A=1.5/f=40Hz/r=0.4/y0.95 c43
_Figure 10 Spreading of the m.l. /All A/f=40Hz/r=0.4/y0.50 c44
_Figure 11 Spreading of the m.l. /UF/r=0.6/y0.10 c45
_Figure 11 Spreading of the m.l. /UF/r=0.6/y0.50 c46
_Figure 11 Spreading of the m.l. /UF/r=0.6/y0.95 c47
_Figure 11 Spreading of the m.l. /A=0.5/f=40Hz/r=0.6/y0.10 c48
_Figure 11 Spreading of the m.l. /A=0.5/f=40Hz/r=0.6/y0.95 c49
_Figure 11 Spreading of the m.l. /A=1.0/f=40Hz/r=0.6/y0.10 c50
_Figure 11 Spreading of the m.l. /A=1.0/f=40Hz/r=0.6/y0.95 c51
_Figure 11 Spreading of the m.l. /A=1.5/f=40Hz/r=0.6/y0.10 c52
_Figure 11 Spreading of the m.l. /A=1.5/f=40Hz/r=0.6/y0.95 c53
_Figure 11 Spreading of the m.l. /All A/f=40Hz/r=0.6/y0.50 c54
_Figure 12 Momentum thickness vs x /UF/r=0.6 c55
_Figure 12 Momentum thickness vs x /A=0.5/f=40Hz/r=0.6 c56
_Figure 12 Momentum thickness vs x /A=1.0/f=40Hz/r=0.6 c57
_Figure 12 Momentum thickness vs x /A=1.5/f=40Hz/r=0.6 c58
_Figure 12 Momentum thickness vs x /A=2.0/f=40Hz/r=0.6 c59
_Figure 13 Momentum thickness vs x /UF/r=0.6 c60
_Figure 13 Momentum thickness vs x /A=1.5/f=60Hz/r=0.6 c61
_Figure 13 Momentum thickness vs x /A=1.5/f=50Hz/r=0.6 c62
_Figure 13 Momentum thickness vs x /A=1.5/f=40Hz/r=0.6 c63
_Figure 13 Momentum thickness vs x /A=1.5/f=30Hz/r=0.6 c64
_Figure 14 Momentum thickness vs x /A=1.5/f=50Hz/r=0.3 c101
_Figure 14 Momentum thickness vs x /A=1.5/f=50Hz/r=0.4 c102
_Figure 14 Momentum thickness vs x /A=1.5/f=50Hz/r=0.5 c103
_Figure 14 Momentum thickness vs x /A=1.5/f=50Hz/r=0.6 c104
_Figure 15 Effect of A on the mean velocity /UF/r=0.6 c105
_Figure 15 Effect of A on the mean velocity /A=0.5/f=30Hz/r=0.6 c106
_Figure 15 Effect of A on the mean velocity /A=1.0/f=30Hz/r=0.6 c107
_Figure 15 Effect of A on the mean velocity /A=1.5/f=30Hz/r=0.6 c108
_Figure 16 Distribution of mean velocity /A=1.5/f=30Hz/r=0.6 c73
_Figure 17 Distribution of mean velocity /A=1.5/f=40Hz/r=0.6 ,x=1000mm c178
_Figure 17 Distribution of mean velocity /A=1.5/f=40Hz/r=0.6, other x stations c179
_Figure 18.a Intensity of u' /A=1.5/f=30Hz/r=0.6/x=300 mm) c142
_Figure 18.a Intensity of u' /A=1.5/f=30Hz/r=0.6/x=400 mm) c143
_Figure 18.a Intensity of u' /A=1.5/f=30Hz/r=0.6/x=500 mm) c144
_Figure 18.a Intensity of u' /A=1.5/f=30Hz/r=0.6/x=600 mm) c145
_Figure 18.a Intensity of u' /A=1.5/f=30Hz/r=0.6/x=700 mm) c146
_Figure 18.a Intensity of u' /A=1.5/f=30Hz/r=0.6/x=800 mm) c147
_Figure 18.a Intensity of u' /A=1.5/f=30Hz/r=0.6/x=900mm) c148
_Figure 18.a Intensity of u' /A=1.5/f=30Hz/r=0.6/x=1000 mm) c149
_Figure 18.b Intensity of u' /A=1.5/f=40Hz/r=0.6/x=300 mm) c150
_Figure 18.b Intensity of u' /A=1.5/f=40Hz/r=0.6/x=400 mm) c151
_Figure 18.b Intensity of u' /A=1.5/f=40Hz/r=0.6/x=500 mm) c152
_Figure 18.b Intensity of u' /A=1.5/f=40Hz/r=0.6/x=600 mm) c153
_Figure 18.b Intensity of u' /A=1.5/f=40Hz/r=0.6/x=700 mm) c154
_Figure 19.a Intensity of u' /f=30Hz/r=0.6/x=300mm/UF c132
_Figure 19.a Intensity of u' /f=30Hz/r=0.6/x=300mm/A=0,5 c133
_Figure 19.a Intensity of u' /f=30Hz/r=0.6/x=300mm/A=1,0 c134
_Figure 19.a Intensity of u' /f=30Hz/r=0.6/x=300mm/A=1,5 c135
_Figure 19.b Intensity of u' /f=30Hz/r=0.6/x=900mm/UF c136
_Figure 19.b Intensity of u' /f=30Hz/r=0.6/x=900mm/A=0,5 c137
_Figure 19.b Intensity of u' /f=30Hz/r=0.6/x=900mm/A=1,0 c138
_Figure 19.b Intensity of u' /f=30Hz/r=0.6/x=900mm/A=1,5 c139
_Figure 20 Intensity of u' /r=0.6/f=60Hz/x=1100mm c109
_Figure 20 Intensity of u' /r=0.6/f=50Hz/x=1300mm c110
_Figure 20 Intensity of u' /r=0.6/f=40Hz/x=1600mm c111
_Figure 21 Intensity of u' /f=50Hz/r=0,6/x=1300mm c112
_Figure 21 Intensity of u' /f=50Hz/r=0,5/x=900mm c113
_Figure 21 Intensity of u' /f=50Hz/r=0,4/x=700mm c114
_Figure 21 Intensity of u' /f=50Hz/r=0,3/x=500mm c115
_Figure 22 Intensity of v' /UF/r=0.6 c81
_Figure 22 Intensity of v' /A=2.0/f=40Hz/r=0.6/x=600mm c116
_Figure 22 Intensity of v' /A=2.0/f=40Hz/r=0.6/x=800mm c117
_Figure 22 Intensity of v' /A=2.0/f=40Hz/r=0.6/x=1000mm c118
_Figure 22 Intensity of v' /A=2.0/f=40Hz/r=0.6/x=1200mm c119
_Figure 22 Intensity of v' /A=2.0/f=40Hz/r=0.6/x=1400mm c120
_Figure 23 Intensity of w' /UF/r=0.6 c85
_Figure 23 Intensity of w' /A=2.0/f=40Hz/r=0.6/x=300mm c121
_Figure 23 Intensity of w' /A=2.0/f=40Hz/r=0.6/x=600mm c122
_Figure 23 Intensity of w' /A=2.0/f=40Hz/r=0.6/x=900mm c123
_Figure 23 Intensity of w' /A=2.0/f=40Hz/r=0.6/x=1200mm c124
_Figure 23 Intensity of w' /A=2.0/f=40Hz/r=0.6/x=1700mm c125
_Figure 24 Total turbulent energy vs x /UF c140
_Figure 24 Total turbulent energy vs x /A=2.0/f=40Hz c141
_Figure 25 Reynolds stresses /UF/r=0.6 c91
_Figure 25 Reynolds stresses /A=2.0/f=40Hz/r=0.6/x=400mm c126
_Figure 25 Reynolds stresses /A=2.0/f=40Hz/r=0.6/x=600mm c127
_Figure 25 Reynolds stresses /A=2.0/f=40Hz/r=0.6/x=800mm c128
_Figure 25 Reynolds stresses /A=2.0/f=40Hz/r=0.6/x=1000mm c129
_Figure 25 Reynolds stresses /A=2.0/f=40Hz/r=0.6/x=1200mm c130
_Figure 25 Reynolds stresses /A=2.0/f=40Hz/r=0.6/x=1400mm c131
_Figure 35 Mean velocity in the far field /UF/r=0.4 c96
_Figure 35 Mean velocity in the far field /A=1.5/f=50Hz/r=0.4 c97
_Figure 36 Intensity of u' in the far field /UF/r=0.4 c98
_Figure 36 Intensity of u',far field /A=1.5/f=50Hz/r=0.4, x=1000mm c99
_Figure 36 Intensity of u',far field /A=1.5/f=50Hz/r=0.4, other x stations c100