Index of /turbdata/agard/chapter6/SHL04/turb
DATA BASE SHL04
directory: turb
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list of included files
read.me : this file
0150.m1
0200.m1
0250.m1
0650.m1
0800.m1
0950.m1
0150.m2
0200.m2
0250.m2
0650.m2
0800.m2
0950.m2
0150.m3
0200.m3
0250.m3
0650.m3
0800.m3
0950.m3
eps.200
eps.800
kuv.200
kuv.800
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Files descriptions:
files DDDD.mX : evolution of moments of order X measured at DDDD mm from
trailing edge of splitting plate.
files eps.DDD : evolution of dissipation measured at DDD mm from trailing
of splitting plate.
files kuv.DDD : evolution of Reynolds stress <uv> and turbulent kinetic energy
measured around DDD mm from trailing of splitting plate.
notations: < > corresponds to temporal average
u, v, w are fluctuating velocity components (resp. longitudinal,
normal to the plate, spanwise)
delta_omega is the vorticity thickness
Delta_U is the difference of velocity (high speed - low speed)
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files DDDD.m1 : evolution of 1st order moments (i.e. mean value) of u and v.
stored are:
col. #1 y/delta_omega
col. #2 <u>/Delta_U
col. #3 <v>/Delta_U
note: <w> = 0 from homogeneity in the spanwise direction
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files DDDD.m2 : evolution of 2nd order moments of u, v and w.
stored are:
col. #1 y/delta_omega
col. #2 <u*u>/Delta_U**2
col. #3 <v*v>/Delta_U**2
col. #4 <u*v>/Delta_U**2
col. #5 <w*w>/Delta_U**2
note: <u*w> = <v*w> = 0 from homogeneity in the spanwise direction
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files DDDD.m3 : evolution of 3rd order moments of u, v and w.
stored are:
col. #1 y/delta_omega
col. #2 <u*u*u>/Delta_U**3
col. #3 <v*v*v>/Delta_U**3
col. #4 <u*u*v>/Delta_U**3
col. #5 <u*v*v>/Delta_U**3
col. #6 <u*w*w>/Delta_U**3
extra col. only for DDDD = 0200 and DDDD = 0800:
col. #7 <v*w*w>/Delta_U**3
note: <u*u*w> = <v*v*w> = <u*v*w> = <w*w*w> = 0 from homogeneity in the
spanwise direction
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files eps.DDD : evolution of dissipation epsilon
stored are:
col. #1 y/delta_omega
col. #2 epsilon*Delta_U**2/delta_omega
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file kuv.200 :evolution of turbulent kinetic energu and Reynolds stress <uv>
in the region 200 mm from trailing edge of splitting plate
col. #1 y/delta_omega at x=150
col. #2 k/Delta_U**2 at x=150
col. #3 <uv>/Delta_U**2 at x=150
col. #4 y/delta_omega at x=200
col. #5 k/Delta_U**2 at x=200
col. #6 <uv>/Delta_U**2 at x=200
col. #7 y/delta_omega at x=250
col. #8 k/Delta_U**2 at x=250
col. #9 <uv>/Delta_U**2 at x=250
file kuv.800 :evolution of turbulent kinetic energu and Reynolds stress <uv>
in the region 800 mm from trailing edge of splitting plate
col. #1 y/delta_omega at x=650
col. #2 k/Delta_U**2 at x=650
col. #3 <uv>/Delta_U**2 at x=650
col. #4 y/delta_omega at x=800
col. #5 k/Delta_U**2 at x=800
col. #6 <uv>/Delta_U**2 at x=800
col. #7 y/delta_omega at x=950
col. #8 k/Delta_U**2 at x=950
col. #9 <uv>/Delta_U**2 at x=950