796 different keywords | Search | Percent |
cavitation | 184 | 7.1 % |
of | 119 | 4.6 % |
and | 50 | 1.9 % |
in | 41 | 1.5 % |
the | 38 | 1.4 % |
pump | 37 | 1.4 % |
on | 35 | 1.3 % |
propeller | 32 | 1.2 % |
supercavitation | 31 | 1.2 % |
pdf | 28 | 1 % |
bubble | 27 | 1 % |
flow | 26 | 1 % |
vortex | 25 | 0.9 % |
a | 23 | 0.8 % |
cavitating | 22 | 0.8 % |
analysis | 21 | 0.8 % |
orifice | 21 | 0.8 % |
model | 20 | 0.7 % |
boundary | 20 | 0.7 % |
cav2001 | 19 | 0.7 % |
effect | 18 | 0.7 % |
simulation | 16 | 0.6 % |
water | 16 | 0.6 % |
filetype | 15 | 0.5 % |
numerical | 14 | 0.5 % |
jet | 14 | 0.5 % |
erosion | 14 | 0.5 % |
test | 13 | 0.5 % |
flows | 13 | 0.5 % |
experimental | 13 | 0.5 % |
centrifugal | 13 | 0.5 % |
pressure | 12 | 0.4 % |
to | 12 | 0.4 % |
effects | 12 | 0.4 % |
study | 11 | 0.4 % |
design | 11 | 0.4 % |
ship | 11 | 0.4 % |
for | 11 | 0.4 % |
http | 10 | 0.3 % |
with | 10 | 0.3 % |
cavity | 10 | 0.3 % |
cavities | 10 | 0.3 % |
rudder | 10 | 0.3 % |
surface | 9 | 0.3 % |
tip | 9 | 0.3 % |
ventilated | 9 | 0.3 % |
added | 9 | 0.3 % |
inducer | 9 | 0.3 % |
tunnel | 9 | 0.3 % |
partial | 9 | 0.3 % |
experiment | 8 | 0.3 % |
supercavitating | 8 | 0.3 % |
dynamic | 8 | 0.3 % |
around | 8 | 0.3 % |
submerged | 8 | 0.3 % |
type | 7 | 0.2 % |
bubbles | 7 | 0.2 % |
mass | 7 | 0.2 % |
restriction | 7 | 0.2 % |
2001 | 7 | 0.2 % |
hydrofoil | 7 | 0.2 % |
layer | 7 | 0.2 % |
rocket | 7 | 0.2 % |
//caltechconf.library.caltech.edu/66/0/savchenko.pdf | 7 | 0.2 % |
an | 7 | 0.2 % |
turbulent | 7 | 0.2 % |
injection | 7 | 0.2 % |
element | 7 | 0.2 % |
new | 7 | 0.2 % |
two | 7 | 0.2 % |
investigation | 7 | 0.2 % |
sheet | 7 | 0.2 % |
cfd | 7 | 0.2 % |
fluent | 7 | 0.2 % |
suction | 7 | 0.2 % |
method | 7 | 0.2 % |
nozzle | 7 | 0.2 % |
sessionb9.001 | 7 | 0.2 % |
calculation | 7 | 0.2 % |
inception | 7 | 0.2 % |
parameter | 6 | 0.2 % |
scale | 6 | 0.2 % |
unsteady | 6 | 0.2 % |
cone | 6 | 0.2 % |
acoustic | 6 | 0.2 % |
hydrodynamic | 6 | 0.2 % |
naca | 6 | 0.2 % |
vibration | 6 | 0.2 % |
h. | 6 | 0.2 % |
prediction | 6 | 0.2 % |
turbo | 6 | 0.2 % |
2d | 6 | 0.2 % |
joint | 6 | 0.2 % |
piercing | 6 | 0.2 % |
azipod | 5 | 0.1 % |
performance | 5 | 0.1 % |
thermal | 5 | 0.1 % |
sump | 5 | 0.1 % |
quality | 5 | 0.1 % |
hydrofoils | 5 | 0.1 % |
blade | 5 | 0.1 % |
boundaries | 5 | 0.1 % |
y. | 5 | 0.1 % |
impeller | 5 | 0.1 % |
behaviour | 5 | 0.1 % |
characteristics | 5 | 0.1 % |
damping | 5 | 0.1 % |
mixed-flow | 5 | 0.1 % |
near | 5 | 0.1 % |
measurement | 4 | 0.1 % |
underwater | 4 | 0.1 % |
turbopump | 4 | 0.1 % |
shimomura | 4 | 0.1 % |
microbubble | 4 | 0.1 % |
number | 4 | 0.1 % |
journal | 4 | 0.1 % |
ittc | 4 | 0.1 % |
collapse | 4 | 0.1 % |
improved | 4 | 0.1 % |
1981 | 4 | 0.1 % |
turbine | 4 | 0.1 % |
velocity | 4 | 0.1 % |
motion | 4 | 0.1 % |
s. | 4 | 0.1 % |
turbomachinery | 4 | 0.1 % |
research | 4 | 0.1 % |
edge | 4 | 0.1 % |
improve | 4 | 0.1 % |
re-entrant | 4 | 0.1 % |
time | 4 | 0.1 % |
kato | 4 | 0.1 % |
ultrasound | 4 | 0.1 % |
laser-induced | 4 | 0.1 % |
body | 4 | 0.1 % |
methods | 4 | 0.1 % |
et | 4 | 0.1 % |
diesel | 4 | 0.1 % |
a. | 4 | 0.1 % |
mean | 4 | 0.1 % |
franc | 4 | 0.1 % |
leading | 4 | 0.1 % |
noise | 4 | 0.1 % |
dual | 3 | 0.1 % |
jets | 3 | 0.1 % |
reciprocity | 3 | 0.1 % |
coefficients | 3 | 0.1 % |
plates | 3 | 0.1 % |
correlation | 3 | 0.1 % |
navier-stokes-alpha | 3 | 0.1 % |
vortices | 3 | 0.1 % |
solid | 3 | 0.1 % |
concerning | 3 | 0.1 % |
density | 3 | 0.1 % |
symposium | 3 | 0.1 % |
models | 3 | 0.1 % |
r. | 3 | 0.1 % |
questions | 3 | 0.1 % |
liquids | 3 | 0.1 % |
behavior | 3 | 0.1 % |
relations | 3 | 0.1 % |
& | 3 | 0.1 % |
vibrations | 3 | 0.1 % |
delgosha | 3 | 0.1 % |
found | 3 | 0.1 % |
eddy | 3 | 0.1 % |
surface-piercing | 3 | 0.1 % |
naca16 | 3 | 0.1 % |
its | 3 | 0.1 % |
measurements | 3 | 0.1 % |
committee | 3 | 0.1 % |
coutier | 3 | 0.1 % |
time-frequency | 3 | 0.1 % |
large | 3 | 0.1 % |
compressible | 3 | 0.1 % |
between | 3 | 0.1 % |
application | 3 | 0.1 % |
reboud | 3 | 0.1 % |
phenomenon | 3 | 0.1 % |
archer | 3 | 0.1 % |
global | 3 | 0.1 % |
problems | 3 | 0.1 % |
al | 3 | 0.1 % |
abs | 3 | 0.1 % |
wave | 3 | 0.1 % |
large-eddy | 3 | 0.1 % |
jl. | 3 | 0.1 % |
cloud | 3 | 0.1 % |
nigmatulin | 3 | 0.1 % |
pumps | 3 | 0.1 % |
van | 3 | 0.1 % |
le | 3 | 0.1 % |
three-dimensional | 3 | 0.1 % |
clearance | 3 | 0.1 % |
helium | 3 | 0.1 % |
fission | 3 | 0.1 % |
cav | 3 | 0.1 % |
instabilities | 3 | 0.1 % |
bearings | 3 | 0.1 % |
waterjet | 3 | 0.1 % |
ten | 3 | 0.1 % |
aura | 3 | 0.1 % |
michel | 3 | 0.1 % |
frequency | 3 | 0.1 % |
kaplan | 3 | 0.1 % |
structure | 3 | 0.1 % |
air | 3 | 0.1 % |
particle | 2 | 0 % |
what | 2 | 0 % |
materials | 2 | 0 % |
horn | 2 | 0 % |
energy | 2 | 0 % |
scaling | 2 | 0 % |
non-reflective | 2 | 0 % |
wall | 2 | 0 % |
phase | 2 | 0 % |
various | 2 | 0 % |
super | 2 | 0 % |
t. | 2 | 0 % |
different | 2 | 0 % |
venkateswaran | 2 | 0 % |
coutier-delgosha | 2 | 0 % |
horn-type | 2 | 0 % |
trailing | 2 | 0 % |
proceedings | 2 | 0 % |
caltech | 2 | 0 % |
inner | 2 | 0 % |
race | 2 | 0 % |
drag | 2 | 0 % |
injector | 2 | 0 % |
tsujimoto | 2 | 0 % |
laser | 2 | 0 % |
bayesian | 2 | 0 % |
instability | 2 | 0 % |
fluctuations | 2 | 0 % |
skew | 2 | 0 % |
18th | 2 | 0 % |
sine | 2 | 0 % |
compounds | 2 | 0 % |
fluids | 2 | 0 % |
hydrodynamics | 2 | 0 % |
g. | 2 | 0 % |
intensity | 2 | 0 % |
free | 2 | 0 % |
empirically | 2 | 0 % |
clusters | 2 | 0 % |
vulcain | 2 | 0 % |
lithotripsy | 2 | 0 % |
organic | 2 | 0 % |
fortes-patella | 2 | 0 % |
. | 2 | 0 % |
laws | 2 | 0 % |
force | 2 | 0 % |
podded | 2 | 0 % |
parallel | 2 | 0 % |
npsh | 2 | 0 % |
e®ects | 2 | 0 % |
elements | 2 | 0 % |
waves | 2 | 0 % |
2000 | 2 | 0 % |
rebound | 2 | 0 % |
grating | 2 | 0 % |
generation | 2 | 0 % |
thesis | 2 | 0 % |
review | 2 | 0 % |
plate | 2 | 0 % |
geometry | 2 | 0 % |
development | 2 | 0 % |
combustion | 2 | 0 % |
mechanism | 2 | 0 % |
erosive | 2 | 0 % |
manoeuvring | 2 | 0 % |
quantitative | 2 | 0 % |
international | 2 | 0 % |
engineering | 2 | 0 % |
applications | 2 | 0 % |
foam | 2 | 0 % |
stage | 2 | 0 % |
sphere | 2 | 0 % |
cryogenic | 2 | 0 % |
m. | 2 | 0 % |
using | 2 | 0 % |
setup | 2 | 0 % |
balance | 2 | 0 % |
o. | 2 | 0 % |
collapsing | 2 | 0 % |
use | 2 | 0 % |
blades | 2 | 0 % |
environment | 2 | 0 % |
conclusion | 2 | 0 % |
lubrication | 2 | 0 % |
theorem | 2 | 0 % |
integral | 2 | 0 % |
japan | 2 | 0 % |
predict | 2 | 0 % |
head | 2 | 0 % |
stream | 2 | 0 % |
induced | 2 | 0 % |
s | 2 | 0 % |
fujikawa | 2 | 0 % |
condition | 2 | 0 % |
luminescence | 2 | 0 % |
phenomena | 2 | 0 % |
plesset | 2 | 0 % |
potential | 2 | 0 % |
micro | 2 | 0 % |
validation | 2 | 0 % |
cavitations | 2 | 0 % |
multiple-species | 2 | 0 % |
robotics | 2 | 0 % |
preconditioned | 2 | 0 % |
high-speed | 2 | 0 % |
directional | 2 | 0 % |
rayleigh | 2 | 0 % |
high | 2 | 0 % |
studies | 2 | 0 % |
al. | 2 | 0 % |
mach | 1 | 0 % |
closure | 1 | 0 % |
lele | 1 | 0 % |
pipeline | 1 | 0 % |
-coastal | 1 | 0 % |
rotation | 1 | 0 % |
forming | 1 | 0 % |
basin | 1 | 0 % |
counterjet | 1 | 0 % |
dynamical-systems | 1 | 0 % |
xiang | 1 | 0 % |
gravity | 1 | 0 % |
sediment | 1 | 0 % |
mfs | 1 | 0 % |
author | 1 | 0 % |
kougakuin | 1 | 0 % |
shockwave | 1 | 0 % |
knudsen | 1 | 0 % |
ing. | 1 | 0 % |
nuovo | 1 | 0 % |
ganippa | 1 | 0 % |
background | 1 | 0 % |
part | 1 | 0 % |
figures | 1 | 0 % |
predicting | 1 | 0 % |
star-cd | 1 | 0 % |
combustor | 1 | 0 % |
helical | 1 | 0 % |
dang | 1 | 0 % |
pignone | 1 | 0 % |
hydrogen | 1 | 0 % |
fluid | 1 | 0 % |
tutorial | 1 | 0 % |
navier-stokes | 1 | 0 % |
-stock | 1 | 0 % |
viscosity | 1 | 0 % |
16-012 | 1 | 0 % |
computational | 1 | 0 % |
connors | 1 | 0 % |
pp. | 1 | 0 % |
shin | 1 | 0 % |
reacting | 1 | 0 % |
attached | 1 | 0 % |
bellan | 1 | 0 % |
howell | 1 | 0 % |
dynamics | 1 | 0 % |
grid | 1 | 0 % |
reactive | 1 | 0 % |
les/pdf | 1 | 0 % |
aeroacoustics | 1 | 0 % |
physica | 1 | 0 % |
vol.103 | 1 | 0 % |
fox | 1 | 0 % |
equations | 1 | 0 % |
numbers | 1 | 0 % |
taib | 1 | 0 % |
284–288 | 1 | 0 % |
map | 1 | 0 % |
tranfer | 1 | 0 % |
possibility | 1 | 0 % |
vapor | 1 | 0 % |
perspectives | 1 | 0 % |
explosion | 1 | 0 % |
piping | 1 | 0 % |
affect | 1 | 0 % |
partially | 1 | 0 % |
fundamental | 1 | 0 % |
-termal | 1 | 0 % |
description | 1 | 0 % |
kavitation | 1 | 0 % |
top | 1 | 0 % |
conditions | 1 | 0 % |
wei | 1 | 0 % |
spectra | 1 | 0 % |
2001b | 1 | 0 % |
akhavan | 1 | 0 % |
-sediment | 1 | 0 % |
institute | 1 | 0 % |
ellipsoid | 1 | 0 % |
1d | 1 | 0 % |
observation | 1 | 0 % |
rotors | 1 | 0 % |
asymptotic | 1 | 0 % |
china | 1 | 0 % |
state | 1 | 0 % |
j | 1 | 0 % |
artificial | 1 | 0 % |
newtons | 1 | 0 % |
configurations | 1 | 0 % |
joseph | 1 | 0 % |
down | 1 | 0 % |
cavitation sato | 1 | 0 % |
drift | 1 | 0 % |
ccs | 1 | 0 % |
b. | 1 | 0 % |
chaves | 1 | 0 % |
swept | 1 | 0 % |
how | 1 | 0 % |
ring | 1 | 0 % |
axial | 1 | 0 % |
effects-empirically | 1 | 0 % |
oscillations | 1 | 0 % |
rijsbergen | 1 | 0 % |
direct | 1 | 0 % |
1987 | 1 | 0 % |
wing | 1 | 0 % |
up | 1 | 0 % |
yoshizawa | 1 | 0 % |
1991 | 1 | 0 % |
objects | 1 | 0 % |
vof | 1 | 0 % |
multiperforated | 1 | 0 % |
pumping | 1 | 0 % |
approximation | 1 | 0 % |
shen | 1 | 0 % |
emission | 1 | 0 % |
plane | 1 | 0 % |
he | 1 | 0 % |
meyer | 1 | 0 % |
مدل | 1 | 0 % |
kumano | 1 | 0 % |
kato@eng.toyo.ac.jp | 1 | 0 % |
y | 1 | 0 % |
reentrant | 1 | 0 % |
liquid | 1 | 0 % |
williams | 1 | 0 % |
makes | 1 | 0 % |
grenoble | 1 | 0 % |
navier–stokes | 1 | 0 % |
sound | 1 | 0 % |
1993 | 1 | 0 % |
due | 1 | 0 % |
jtfa | 1 | 0 % |
hull | 1 | 0 % |
soyama | 1 | 0 % |
tissue | 1 | 0 % |
distribution | 1 | 0 % |
tuning | 1 | 0 % |
riondet | 1 | 0 % |
final | 1 | 0 % |
1983 | 1 | 0 % |
analytical | 1 | 0 % |
small | 1 | 0 % |
savchenko | 1 | 0 % |
over | 1 | 0 % |
halbaxialpumpe | 1 | 0 % |
visualization | 1 | 0 % |
dimensional | 1 | 0 % |
sgs | 1 | 0 % |
patella | 1 | 0 % |
oxidize | 1 | 0 % |
break-up | 1 | 0 % |
naval | 1 | 0 % |
paper | 1 | 0 % |
karmann | 1 | 0 % |
delannoy | 1 | 0 % |
t.aono. | 1 | 0 % |
[pdf] | 1 | 0 % |
coefficient | 1 | 0 % |
length | 1 | 0 % |
verhaltens | 1 | 0 % |
cavities. | 1 | 0 % |
butterfly | 1 | 0 % |
cavitator | 1 | 0 % |
www.nanomizer.co.jp | 1 | 0 % |
law | 1 | 0 % |
stokes | 1 | 0 % |
//caltechconf.library.caltech.edu/70/0/cav2001_b5006.pdf | 1 | 0 % |
nrec | 1 | 0 % |
prandtl | 1 | 0 % |
past | 1 | 0 % |
full-scale | 1 | 0 % |
a.c.takinaci | 1 | 0 % |
value | 1 | 0 % |
” | 1 | 0 % |
devices | 1 | 0 % |
7th | 1 | 0 % |
c | 1 | 0 % |
challier | 1 | 0 % |
nsasaki | 1 | 0 % |
arl | 1 | 0 % |
samsung | 1 | 0 % |
sassanelli | 1 | 0 % |
antoine | 1 | 0 % |
low | 1 | 0 % |
through | 1 | 0 % |
oil | 1 | 0 % |
hattori | 1 | 0 % |
flows. | 1 | 0 % |
theoretical | 1 | 0 % |
fluctuation | 1 | 0 % |
foil | 1 | 0 % |
modellierung | 1 | 0 % |
missiles | 1 | 0 % |
oxidation | 1 | 0 % |
bodony | 1 | 0 % |
immersion | 1 | 0 % |
brix | 1 | 0 % |
spectral-eddy | 1 | 0 % |
undersea | 1 | 0 % |
lox | 1 | 0 % |
stromungsmachinen | 1 | 0 % |
similarity | 1 | 0 % |
observations | 1 | 0 % |
surge | 1 | 0 % |
laberteaux | 1 | 0 % |
moments | 1 | 0 % |
naca16-012 | 1 | 0 % |
b | 1 | 0 % |
2.cavities | 1 | 0 % |
pulse | 1 | 0 % |
poinsot | 1 | 0 % |
function | 1 | 0 % |
quadrature | 1 | 0 % |
kooij | 1 | 0 % |
-tube | 1 | 0 % |
web | 1 | 0 % |
e.korkut | 1 | 0 % |
real | 1 | 0 % |
t.j.c. | 1 | 0 % |
1994 | 1 | 0 % |
m.atlar | 1 | 0 % |
angle | 1 | 0 % |
frv | 1 | 0 % |
techniques | 1 | 0 % |
spot | 1 | 0 % |
icc | 1 | 0 % |
393 | 1 | 0 % |
struts | 1 | 0 % |
vessel | 1 | 0 % |
non | 1 | 0 % |
ssmb | 1 | 0 % |
der | 1 | 0 % |
berchiche | 1 | 0 % |
merkle | 1 | 0 % |
atlar | 1 | 0 % |
dissipation | 1 | 0 % |
or | 1 | 0 % |
does | 1 | 0 % |
jump | 1 | 0 % |
fortes | 1 | 0 % |
caviling | 1 | 0 % |
kinnas | 1 | 0 % |
engine | 1 | 0 % |
reynolds | 1 | 0 % |
shape | 1 | 0 % |
furukawa | 1 | 0 % |
16-206 | 1 | 0 % |
apipe | 1 | 0 % |
microbubbles | 1 | 0 % |
wang | 1 | 0 % |
interaction | 1 | 0 % |
saka | 1 | 0 % |
young | 1 | 0 % |
solutions | 1 | 0 % |
are | 1 | 0 % |
center | 1 | 0 % |
non-cavitating | 1 | 0 % |
tullis | 1 | 0 % |
physical | 1 | 0 % |
diatomic | 1 | 0 % |
without | 1 | 0 % |
j.w.lindau | 1 | 0 % |
l | 1 | 0 % |
june | 1 | 0 % |
heating | 1 | 0 % |
book | 1 | 0 % |
3d | 1 | 0 % |
aerodynamics | 1 | 0 % |
heavy | 1 | 0 % |
invariability | 1 | 0 % |
isotropic | 1 | 0 % |
16 | 1 | 0 % |
code | 1 | 0 % |
history | 1 | 0 % |
j. | 1 | 0 % |
technology | 1 | 0 % |
hertz | 1 | 0 % |
computer | 1 | 0 % |
zhou | 1 | 0 % |
comparison | 1 | 0 % |
all | 1 | 0 % |
nozzles | 1 | 0 % |
- | 1 | 0 % |
und | 1 | 0 % |
pope | 1 | 0 % |
turbopumps | 1 | 0 % |
adaptation | 1 | 0 % |
stability | 1 | 0 % |
fuel | 1 | 0 % |
les | 1 | 0 % |
modeling | 1 | 0 % |
narrow | 1 | 0 % |
friesch | 1 | 0 % |
france | 1 | 0 % |
korkut | 1 | 0 % |
gaithersburg | 1 | 0 % |
systems | 1 | 0 % |
interactions | 1 | 0 % |
multiphase | 1 | 0 % |
lagrangian | 1 | 0 % |
sorce | 1 | 0 % |
data | 1 | 0 % |
axisymmetrical | 1 | 0 % |
coupling | 1 | 0 % |
0015 | 1 | 0 % |
yakimov | 1 | 0 % |
michigan | 1 | 0 % |
des | 1 | 0 % |
scientific | 1 | 0 % |
spherical | 1 | 0 % |
complex | 1 | 0 % |
3d&5d | 1 | 0 % |
bem | 1 | 0 % |
rayleigh-taylor | 1 | 0 % |
theoritical | 1 | 0 % |
super-cavitating | 1 | 0 % |
hiroyasu | 1 | 0 % |
spillway | 1 | 0 % |
5 | 1 | 0 % |
subgrid | 1 | 0 % |
ryabushinsky | 1 | 0 % |
content | 1 | 0 % |
deutsch | 1 | 0 % |
maneuvering | 1 | 0 % |
012 | 1 | 0 % |
[older | 1 | 0 % |
second | 1 | 0 % |
scheme | 1 | 0 % |
modified | 1 | 0 % |
manouvering | 1 | 0 % |
1997 | 1 | 0 % |
propellers | 1 | 0 % |
dybamics | 1 | 0 % |
s.l. | 1 | 0 % |
transport | 1 | 0 % |
yin | 1 | 0 % |
section | 1 | 0 % |
physics | 1 | 0 % |
size | 1 | 0 % |
domain | 1 | 0 % |
internal | 1 | 0 % |
sections | 1 | 0 % |
japikse | 1 | 0 % |
bottom | 1 | 0 % |
single | 1 | 0 % |
hole | 1 | 0 % |
//caltechconf.library.caltech.edu/139/0/sessiona7.004.pdf | 1 | 0 % |
maneuver | 1 | 0 % |
trasienten | 1 | 0 % |
iclass | 1 | 0 % |
maneuvers | 1 | 0 % |
willmarth | 1 | 0 % |
critical | 1 | 0 % |
1996 | 1 | 0 % |
evaluation | 1 | 0 % |
matsumoto | 1 | 0 % |
compressibility | 1 | 0 % |
depth | 1 | 0 % |
chimera | 1 | 0 % |
reynolds-averaged | 1 | 0 % |
cavitaion | 1 | 0 % |
fixing | 1 | 0 % |
pfleiderer | 1 | 0 % |
transient | 1 | 0 % |
simulations | 1 | 0 % |
april | 1 | 0 % |
curved | 1 | 0 % |
allocation | 1 | 0 % |
university | 1 | 0 % |
temporal | 1 | 0 % |
tests | 1 | 0 % |
eulerian/lagrangian | 1 | 0 % |
turbulence | 1 | 0 % |
k.r. | 1 | 0 % |
– | 1 | 0 % |
g | 1 | 0 % |
airfoil | 1 | 0 % |
temperature | 1 | 0 % |
relative | 1 | 0 % |
derivation | 1 | 0 % |
korea | 1 | 0 % |
start | 1 | 0 % |
ge | 1 | 0 % |
65006 | 1 | 0 % |
gas | 1 | 0 % |
equation | 1 | 0 % |
weitendorf | 1 | 0 % |
shyy | 1 | 0 % |
modelling | 1 | 0 % |
radial | 1 | 0 % |
2d-curved | 1 | 0 % |
krishnaswamy | 1 | 0 % |
correction | 1 | 0 % |
navier | 1 | 0 % |
occurrence | 1 | 0 % |
b3.004 | 1 | 0 % |
lu | 1 | 0 % |
mixed | 1 | 0 % |
crash | 1 | 0 % |
tplox | 1 | 0 % |
single-hole | 1 | 0 % |
josette | 1 | 0 % |
generated | 1 | 0 % |
detachment | 1 | 0 % |
2 | 1 | 0 % |
bubbly | 1 | 0 % |
rms | 1 | 0 % |
govindarajan | 1 | 0 % |
submarine | 1 | 0 % |
valve | 1 | 0 % |
full | 1 | 0 % |
ultrasonic | 1 | 0 % |
lauterborn | 1 | 0 % |
gowing | 1 | 0 % |
intermolecular | 1 | 0 % |
baghdassarian | 1 | 0 % |
limit | 1 | 0 % |
ceccio | 1 | 0 % |
orifices | 1 | 0 % |
probability | 1 | 0 % |
rarefaction | 1 | 0 % |
tulin | 1 | 0 % |
penn | 1 | 0 % |
russia | 1 | 0 % |
detecting | 1 | 0 % |
forward | 1 | 0 % |
machinery | 1 | 0 % |
session | 1 | 0 % |
hydraulic | 1 | 0 % |
configuration | 1 | 0 % |
ducted | 1 | 0 % |
spectrum | 1 | 0 % |
phd | 1 | 0 % |
toolbar | 1 | 0 % |
kuiper | 1 | 0 % |
efficiency | 1 | 0 % |
relationship | 1 | 0 % |
installation | 1 | 0 % |
averaged | 1 | 0 % |
alternate | 1 | 0 % |
“untersuchung | 1 | 0 % |
daniel | 1 | 0 % |
test”. | 1 | 0 % |
193-242 | 1 | 0 % |
1978 | 1 | 0 % |
robert | 1 | 0 % |
more | 1 | 0 % |
usa | 1 | 0 % |
12-inch | 1 | 0 % |
3rd | 1 | 0 % |
nozzles-effect | 1 | 0 % |
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