1051 different keywords | Search | Percent |
cavitation | 290 | 7.5 % |
of | 164 | 4.2 % |
in | 66 | 1.7 % |
and | 59 | 1.5 % |
pdf | 58 | 1.5 % |
a | 54 | 1.4 % |
orifice | 53 | 1.3 % |
the | 41 | 1 % |
flow | 39 | 1 % |
tunnel | 37 | 0.9 % |
propeller | 34 | 0.8 % |
inducer | 34 | 0.8 % |
simulation | 33 | 0.8 % |
pump | 33 | 0.8 % |
for | 33 | 0.8 % |
bubble | 31 | 0.8 % |
restriction | 30 | 0.7 % |
filetype | 30 | 0.7 % |
erosion | 29 | 0.7 % |
cavitating | 28 | 0.7 % |
vortex | 28 | 0.7 % |
on | 27 | 0.7 % |
supercavitation | 27 | 0.7 % |
model | 26 | 0.6 % |
design | 25 | 0.6 % |
analysis | 23 | 0.6 % |
to | 21 | 0.5 % |
water | 21 | 0.5 % |
jet | 20 | 0.5 % |
method | 20 | 0.5 % |
numerical | 19 | 0.4 % |
turbopump | 17 | 0.4 % |
study | 17 | 0.4 % |
test | 17 | 0.4 % |
hydrofoil | 17 | 0.4 % |
rocket | 17 | 0.4 % |
number | 16 | 0.4 % |
eddy | 16 | 0.4 % |
large | 16 | 0.4 % |
centrifugal | 16 | 0.4 % |
noise | 16 | 0.4 % |
tip | 15 | 0.3 % |
boundary | 15 | 0.3 % |
turbulent | 15 | 0.3 % |
pumps | 15 | 0.3 % |
experimental | 14 | 0.3 % |
http | 13 | 0.3 % |
experiment | 12 | 0.3 % |
pressure | 12 | 0.3 % |
flows | 12 | 0.3 % |
supercavitating | 12 | 0.3 % |
characteristics | 12 | 0.3 % |
methods | 12 | 0.3 % |
equation | 12 | 0.3 % |
underwater | 11 | 0.2 % |
surface | 11 | 0.2 % |
collapse | 11 | 0.2 % |
distribution | 11 | 0.2 % |
propellers | 11 | 0.2 % |
effect | 11 | 0.2 % |
wake | 10 | 0.2 % |
hypervelocity | 10 | 0.2 % |
new | 10 | 0.2 % |
h. | 10 | 0.2 % |
ship | 10 | 0.2 % |
emerson | 9 | 0.2 % |
azipod | 9 | 0.2 % |
dynamics | 9 | 0.2 % |
an | 9 | 0.2 % |
combustion | 9 | 0.2 % |
fluent | 9 | 0.2 % |
joint | 9 | 0.2 % |
fluid | 8 | 0.2 % |
vortices | 8 | 0.2 % |
state | 8 | 0.2 % |
scale | 8 | 0.2 % |
cavitator | 8 | 0.2 % |
compressible | 8 | 0.2 % |
modeling | 8 | 0.2 % |
cavity | 8 | 0.2 % |
what | 7 | 0.1 % |
phase | 7 | 0.1 % |
by | 7 | 0.1 % |
industrial | 7 | 0.1 % |
mass | 7 | 0.1 % |
models | 7 | 0.1 % |
unsteady | 7 | 0.1 % |
hydrodynamic | 7 | 0.1 % |
blade | 7 | 0.1 % |
self-similar | 7 | 0.1 % |
with | 7 | 0.1 % |
added | 7 | 0.1 % |
time | 7 | 0.1 % |
multiphase | 7 | 0.1 % |
shock | 7 | 0.1 % |
singularity | 7 | 0.1 % |
simulations | 7 | 0.1 % |
prediction | 7 | 0.1 % |
integral | 7 | 0.1 % |
cfd | 7 | 0.1 % |
around | 7 | 0.1 % |
kaplan | 7 | 0.1 % |
measurement | 6 | 0.1 % |
navier-stokes | 6 | 0.1 % |
computational | 6 | 0.1 % |
laser | 6 | 0.1 % |
bubbles | 6 | 0.1 % |
turbine | 6 | 0.1 % |
speed | 6 | 0.1 % |
les | 6 | 0.1 % |
element | 6 | 0.1 % |
wave | 6 | 0.1 % |
two | 6 | 0.1 % |
damping | 6 | 0.1 % |
//caltechconf.library.caltech.edu/104/0/cav2001_b8007.pdf | 6 | 0.1 % |
one | 6 | 0.1 % |
nozzle | 6 | 0.1 % |
frequency | 6 | 0.1 % |
near | 6 | 0.1 % |
calculation | 6 | 0.1 % |
submerged | 6 | 0.1 % |
high | 6 | 0.1 % |
hykat | 6 | 0.1 % |
piercing | 6 | 0.1 % |
wall | 5 | 0.1 % |
helical | 5 | 0.1 % |
tech | 5 | 0.1 % |
reacting | 5 | 0.1 % |
perspectives | 5 | 0.1 % |
partially | 5 | 0.1 % |
symposium | 5 | 0.1 % |
entropy | 5 | 0.1 % |
liquid | 5 | 0.1 % |
over | 5 | 0.1 % |
is | 5 | 0.1 % |
hydrofoils | 5 | 0.1 % |
rotating | 5 | 0.1 % |
motion | 5 | 0.1 % |
time-frequency | 5 | 0.1 % |
david | 5 | 0.1 % |
interaction | 5 | 0.1 % |
cav2001 | 5 | 0.1 % |
rebound | 5 | 0.1 % |
cal | 5 | 0.1 % |
prescale | 5 | 0.1 % |
ultrasound | 5 | 0.1 % |
problems | 5 | 0.1 % |
dynamic | 5 | 0.1 % |
ale | 5 | 0.1 % |
bubbly | 5 | 0.1 % |
induced | 5 | 0.1 % |
orifices | 5 | 0.1 % |
condition | 5 | 0.1 % |
hydraulic | 5 | 0.1 % |
from | 5 | 0.1 % |
rudder | 5 | 0.1 % |
effects | 5 | 0.1 % |
saurel | 4 | 0.1 % |
viscosity | 4 | 0.1 % |
maximise | 4 | 0.1 % |
caltech | 4 | 0.1 % |
fox | 4 | 0.1 % |
kavitation | 4 | 0.1 % |
journal | 4 | 0.1 % |
how | 4 | 0.1 % |
questions | 4 | 0.1 % |
parameter | 4 | 0.1 % |
bodies | 4 | 0.1 % |
boundry | 4 | 0.1 % |
premixed | 4 | 0.1 % |
dimensional | 4 | 0.1 % |
hydrodynamics | 4 | 0.1 % |
overview | 4 | 0.1 % |
foil | 4 | 0.1 % |
salamander | 4 | 0.1 % |
tsallis | 4 | 0.1 % |
application | 4 | 0.1 % |
naca | 4 | 0.1 % |
manoeuvring | 4 | 0.1 % |
tait | 4 | 0.1 % |
using | 4 | 0.1 % |
use | 4 | 0.1 % |
turbulence | 4 | 0.1 % |
airfoil | 4 | 0.1 % |
investigation | 4 | 0.1 % |
attention | 4 | 0.1 % |
predict | 4 | 0.1 % |
facility | 4 | 0.1 % |
2d | 4 | 0.1 % |
simple | 4 | 0.1 % |
ten | 4 | 0.1 % |
barotropic | 4 | 0.1 % |
projectile | 3 | 0 % |
materials | 3 | 0 % |
energy | 3 | 0 % |
author | 3 | 0 % |
super | 3 | 0 % |
erozsion | 3 | 0 % |
inlet | 3 | 0 % |
injecteur | 3 | 0 % |
tsujimoto | 3 | 0 % |
intake | 3 | 0 % |
facing | 3 | 0 % |
artificial | 3 | 0 % |
step | 3 | 0 % |
stevens | 3 | 0 % |
rules | 3 | 0 % |
shen | 3 | 0 % |
behavior | 3 | 0 % |
performance | 3 | 0 % |
facilities | 3 | 0 % |
& | 3 | 0 % |
formula | 3 | 0 % |
sound | 3 | 0 % |
soyama | 3 | 0 % |
2001 | 3 | 0 % |
panel | 3 | 0 % |
coefficient | 3 | 0 % |
astm | 3 | 0 % |
length | 3 | 0 % |
simposion | 3 | 0 % |
off | 3 | 0 % |
acoustic | 3 | 0 % |
fluent5 | 3 | 0 % |
free | 3 | 0 % |
oil | 3 | 0 % |
flows. | 3 | 0 % |
fluctuation | 3 | 0 % |
layer | 3 | 0 % |
film | 3 | 0 % |
techniques | 3 | 0 % |
lithotripsy | 3 | 0 % |
treatment | 3 | 0 % |
engine | 3 | 0 % |
reynolds | 3 | 0 % |
accuracy | 3 | 0 % |
research | 3 | 0 % |
are | 3 | 0 % |
between | 3 | 0 % |
history | 3 | 0 % |
waves | 3 | 0 % |
nozzles | 3 | 0 % |
pope | 3 | 0 % |
archer | 3 | 0 % |
geometry | 3 | 0 % |
lagrangian | 3 | 0 % |
development | 3 | 0 % |
mechanism | 3 | 0 % |
shedding | 3 | 0 % |
control | 3 | 0 % |
international | 3 | 0 % |
break | 3 | 0 % |
applications | 3 | 0 % |
difference | 3 | 0 % |
hippocampus | 3 | 0 % |
large-eddy | 3 | 0 % |
cryogenic | 3 | 0 % |
m. | 3 | 0 % |
technologies | 3 | 0 % |
cloud | 3 | 0 % |
compressibility | 3 | 0 % |
pitsch | 3 | 0 % |
backward | 3 | 0 % |
tests | 3 | 0 % |
steel | 3 | 0 % |
forces | 3 | 0 % |
sheet | 3 | 0 % |
a. | 3 | 0 % |
g134 | 3 | 0 % |
govindarajan | 3 | 0 % |
dular | 3 | 0 % |
partial | 3 | 0 % |
instabilities | 3 | 0 % |
rarefaction | 3 | 0 % |
dimotakis | 3 | 0 % |
supercavity | 3 | 0 % |
ships | 3 | 0 % |
multiple-species | 3 | 0 % |
preconditioned | 3 | 0 % |
high-speed | 3 | 0 % |
diameter | 3 | 0 % |
caviation | 2 | 0 % |
calculations | 2 | 0 % |
g-l-chahine | 2 | 0 % |
developments | 2 | 0 % |
jets | 2 | 0 % |
reduce | 2 | 0 % |
hydrody- | 2 | 0 % |
cavitation tsujimoto | 2 | 0 % |
kubota | 2 | 0 % |
coefficients | 2 | 0 % |
prpopellers | 2 | 0 % |
plates | 2 | 0 % |
very | 2 | 0 % |
microbubble | 2 | 0 % |
different | 2 | 0 % |
stainless | 2 | 0 % |
solid | 2 | 0 % |
inducers. | 2 | 0 % |
concerning | 2 | 0 % |
video | 2 | 0 % |
kano | 2 | 0 % |
experimentation | 2 | 0 % |
conditions | 2 | 0 % |
measuring | 2 | 0 % |
3-bladed | 2 | 0 % |
into | 2 | 0 % |
local | 2 | 0 % |
paryshev | 2 | 0 % |
combes | 2 | 0 % |
supersonic | 2 | 0 % |
ittc | 2 | 0 % |
counter-jet | 2 | 0 % |
pipe | 2 | 0 % |
max | 2 | 0 % |
de | 2 | 0 % |
oxygen | 2 | 0 % |
1973 | 2 | 0 % |
emission | 2 | 0 % |
dale@galcit.caltech.edu | 2 | 0 % |
microjet | 2 | 0 % |
kumano | 2 | 0 % |
injectors | 2 | 0 % |
due | 2 | 0 % |
cone | 2 | 0 % |
sump | 2 | 0 % |
//caltechconf.library.caltech.edu/63/0/cav2001_a9_001.pdf | 2 | 0 % |
6.25-inch | 2 | 0 % |
la | 2 | 0 % |
naval | 2 | 0 % |
cascade | 2 | 0 % |
lecture | 2 | 0 % |
loytsyansky | 2 | 0 % |
game | 2 | 0 % |
butterfly | 2 | 0 % |
stokes | 2 | 0 % |
some_problems_of_supersonic_cavitation_flows.pdf | 2 | 0 % |
impact | 2 | 0 % |
similarity | 2 | 0 % |
collaspsing | 2 | 0 % |
ventilated | 2 | 0 % |
applied | 2 | 0 % |
bearing | 2 | 0 % |
velocity | 2 | 0 % |
perceptual | 2 | 0 % |
real | 2 | 0 % |
akhatov | 2 | 0 % |
angle | 2 | 0 % |
vessel | 2 | 0 % |
turbomachinery | 2 | 0 % |
shape | 2 | 0 % |
learning | 2 | 0 % |
types | 2 | 0 % |
solutions | 2 | 0 % |
saka | 2 | 0 % |
tullis | 2 | 0 % |
inside | 2 | 0 % |
ruby | 2 | 0 % |
vs | 2 | 0 % |
phenomenon | 2 | 0 % |
program | 2 | 0 % |
code | 2 | 0 % |
e | 2 | 0 % |
j. | 2 | 0 % |
sumulative | 2 | 0 % |
y. | 2 | 0 % |
re-entrant | 2 | 0 % |
technology | 2 | 0 % |
v.n. | 2 | 0 % |
sigma | 2 | 0 % |
2000 | 2 | 0 % |
grating | 2 | 0 % |
turbopumps | 2 | 0 % |
thesis | 2 | 0 % |
plate | 2 | 0 % |
injection | 2 | 0 % |
interactions | 2 | 0 % |
maximum | 2 | 0 % |
vibration | 2 | 0 % |
bem | 2 | 0 % |
rayleigh-taylor | 2 | 0 % |
theoritical | 2 | 0 % |
1942 | 2 | 0 % |
tip-gap | 2 | 0 % |
namics | 2 | 0 % |
subgrid | 2 | 0 % |
kato | 2 | 0 % |
content | 2 | 0 % |
second | 2 | 0 % |
scheme | 2 | 0 % |
laser-induced | 2 | 0 % |
dqmom | 2 | 0 % |
size | 2 | 0 % |
spray | 2 | 0 % |
neural | 2 | 0 % |
critical | 2 | 0 % |
chahine | 2 | 0 % |
gap | 2 | 0 % |
matsumoto | 2 | 0 % |
chimera | 2 | 0 % |
designs | 2 | 0 % |
semenenko | 2 | 0 % |
resolution | 2 | 0 % |
downstream | 2 | 0 % |
blake | 2 | 0 % |
cavities | 2 | 0 % |
temporal | 2 | 0 % |
reynolds averaged | 2 | 0 % |
generator | 2 | 0 % |
jet-cavitation | 2 | 0 % |
diesel | 2 | 0 % |
formation | 2 | 0 % |
technique | 2 | 0 % |
supercavitation-problems | 2 | 0 % |
modelling | 2 | 0 % |
species | 2 | 0 % |
radial | 2 | 0 % |
turbo | 2 | 0 % |
mixed | 2 | 0 % |
p. | 2 | 0 % |
thrust | 2 | 0 % |
helium | 2 | 0 % |
computation | 2 | 0 % |
valve | 2 | 0 % |
vane | 2 | 0 % |
head | 2 | 0 % |
guide | 2 | 0 % |
fission | 2 | 0 % |
full | 2 | 0 % |
s | 2 | 0 % |
card | 2 | 0 % |
suction | 2 | 0 % |
i | 2 | 0 % |
two- | 2 | 0 % |
fujikawa | 2 | 0 % |
hsva | 2 | 0 % |
penn | 2 | 0 % |
luminescence | 2 | 0 % |
testing | 2 | 0 % |
machinery | 2 | 0 % |
characteristic | 2 | 0 % |
fedyaevsky | 2 | 0 % |
muscle | 2 | 0 % |
vehicle | 2 | 0 % |
minimum | 2 | 0 % |
cavitaing | 2 | 0 % |
hydroacoustic | 2 | 0 % |
x5 | 2 | 0 % |
material | 2 | 0 % |
lifting | 2 | 0 % |
rotor | 2 | 0 % |
abstract | 2 | 0 % |
tester | 2 | 0 % |
kuklinski | 2 | 0 % |
inception | 2 | 0 % |
hypersonic | 2 | 0 % |
at | 2 | 0 % |
cluster | 2 | 0 % |
stop | 2 | 0 % |
3 | 2 | 0 % |
structure | 2 | 0 % |
air | 2 | 0 % |
norberto | 1 | 0 % |
closure | 1 | 0 % |
martin | 1 | 0 % |
implementation | 1 | 0 % |
load | 1 | 0 % |
edited | 1 | 0 % |
belahadji | 1 | 0 % |
basin | 1 | 0 % |
dimensionality | 1 | 0 % |
g.l. | 1 | 0 % |
vba | 1 | 0 % |
used | 1 | 0 % |
gravity | 1 | 0 % |
equilibrium | 1 | 0 % |
horn | 1 | 0 % |
shown | 1 | 0 % |
scaling | 1 | 0 % |
system | 1 | 0 % |
mirror | 1 | 0 % |
activities | 1 | 0 % |
airplane | 1 | 0 % |
aqua-environmental | 1 | 0 % |
mun | 1 | 0 % |
marine | 1 | 0 % |
shimomura | 1 | 0 % |
ganippa | 1 | 0 % |
part | 1 | 0 % |
college | 1 | 0 % |
single- | 1 | 0 % |
2.1.1 | 1 | 0 % |
odt | 1 | 0 % |
lab | 1 | 0 % |
predicting | 1 | 0 % |
buble | 1 | 0 % |
entrifugal | 1 | 0 % |
qian | 1 | 0 % |
star-cd | 1 | 0 % |
fiat | 1 | 0 % |
freedom. | 1 | 0 % |
boris | 1 | 0 % |
potential-based | 1 | 0 % |
//caltechconf.library.caltech.edu/47/0/cav2001.pdf | 1 | 0 % |
naca662-415 | 1 | 0 % |
setting | 1 | 0 % |
hydrocode | 1 | 0 % |
clousure | 1 | 0 % |
correlation | 1 | 0 % |
laser-created | 1 | 0 % |
type | 1 | 0 % |
runner | 1 | 0 % |
solidparticals | 1 | 0 % |
venkateswaran | 1 | 0 % |
ii | 1 | 0 % |
verlag | 1 | 0 % |
coutier-delgosha | 1 | 0 % |
mechanics | 1 | 0 % |
trailing | 1 | 0 % |
incompressible | 1 | 0 % |
spheroidal | 1 | 0 % |
zooplanktons | 1 | 0 % |
fatigue | 1 | 0 % |
branko | 1 | 0 % |
g-equation | 1 | 0 % |
denmark | 1 | 0 % |
oti-hull | 1 | 0 % |
three-phase | 1 | 0 % |
heat | 1 | 0 % |
vibratory | 1 | 0 % |
software | 1 | 0 % |
kosovic | 1 | 0 % |
inhomogenity | 1 | 0 % |
? | 1 | 0 % |
fully-compressible | 1 | 0 % |
italian | 1 | 0 % |
naca66mod | 1 | 0 % |
numbers | 1 | 0 % |
firing | 1 | 0 % |
drag | 1 | 0 % |
numachi | 1 | 0 % |
vapor | 1 | 0 % |
three- | 1 | 0 % |
affect | 1 | 0 % |
g.kuiper | 1 | 0 % |
fundamental | 1 | 0 % |
water. | 1 | 0 % |
spillways | 1 | 0 % |
plano | 1 | 0 % |
protection | 1 | 0 % |
illustration | 1 | 0 % |
submergence | 1 | 0 % |
flame | 1 | 0 % |
advanced | 1 | 0 % |
spectra | 1 | 0 % |
making | 1 | 0 % |
influence | 1 | 0 % |
institute | 1 | 0 % |
pantano | 1 | 0 % |
giuseppe | 1 | 0 % |
thickness | 1 | 0 % |
observation | 1 | 0 % |
nervous | 1 | 0 % |
compressor | 1 | 0 % |
cpmin | 1 | 0 % |
bayesian | 1 | 0 % |
instability | 1 | 0 % |
actuator | 1 | 0 % |
roll | 1 | 0 % |
j | 1 | 0 % |
super- | 1 | 0 % |
nuclei | 1 | 0 % |
144 | 1 | 0 % |
pitch | 1 | 0 % |
sessionb4.003 | 1 | 0 % |
furst | 1 | 0 % |
ahuja | 1 | 0 % |
“physical | 1 | 0 % |
similarities | 1 | 0 % |
absorption | 1 | 0 % |
axial | 1 | 0 % |
spill | 1 | 0 % |
diagnostics | 1 | 0 % |
tunnels | 1 | 0 % |
considerations | 1 | 0 % |
hydraulics | 1 | 0 % |
king’s | 1 | 0 % |
laserinduced | 1 | 0 % |
equilibria | 1 | 0 % |
1975 | 1 | 0 % |
elbow | 1 | 0 % |
ship’s | 1 | 0 % |
s15c | 1 | 0 % |
isenthalpically | 1 | 0 % |
1991 | 1 | 0 % |
multiperforated | 1 | 0 % |
tung | 1 | 0 % |
conserning | 1 | 0 % |
rivalry | 1 | 0 % |
machine | 1 | 0 % |
invaders | 1 | 0 % |
plane | 1 | 0 % |
compounds | 1 | 0 % |
quantity | 1 | 0 % |
question | 1 | 0 % |
oscillation | 1 | 0 % |
liquid-gas | 1 | 0 % |
second. | 1 | 0 % |
which | 1 | 0 % |
relations | 1 | 0 % |
stone | 1 | 0 % |
pit | 1 | 0 % |
technical | 1 | 0 % |
degrees | 1 | 0 % |
thermal | 1 | 0 % |
naca66 | 1 | 0 % |
piloted | 1 | 0 % |
grenoble | 1 | 0 % |
non-premixed | 1 | 0 % |
reinhardt | 1 | 0 % |
1993 | 1 | 0 % |
reflector | 1 | 0 % |
princeton | 1 | 0 % |
f. | 1 | 0 % |
hull | 1 | 0 % |
turbomachine | 1 | 0 % |
nonlinear | 1 | 0 % |
lertnuwat | 1 | 0 % |
vibrations | 1 | 0 % |
introduction | 1 | 0 % |
savchenko | 1 | 0 % |
sting | 1 | 0 % |
spectral | 1 | 0 % |
later | 1 | 0 % |
found | 1 | 0 % |
schematic | 1 | 0 % |
oxidize | 1 | 0 % |
tipvor | 1 | 0 % |
criterion | 1 | 0 % |
grzywacz | 1 | 0 % |
quality | 1 | 0 % |
supernova | 1 | 0 % |
longatte | 1 | 0 % |
knowledge | 1 | 0 % |
sampling | 1 | 0 % |
pasadena | 1 | 0 % |
primitives | 1 | 0 % |
multi-phase | 1 | 0 % |
notes | 1 | 0 % |
cambridge | 1 | 0 % |
propcav | 1 | 0 % |
emst | 1 | 0 % |
oti | 1 | 0 % |
almost | 1 | 0 % |
two-phase | 1 | 0 % |
orifices | 1 | 0 % |
azipode | 1 | 0 % |
miyamoto | 1 | 0 % |
stanndard | 1 | 0 % |
shot | 1 | 0 % |
template | 1 | 0 % |
etude | 1 | 0 % |
propellor | 1 | 0 % |
parameters | 1 | 0 % |
c | 1 | 0 % |
hitch-hikers | 1 | 0 % |
robots | 1 | 0 % |
unstable | 1 | 0 % |
restricting | 1 | 0 % |
azipot | 1 | 0 % |
wedge | 1 | 0 % |
sassanelli | 1 | 0 % |
papers | 1 | 0 % |
gmbh | 1 | 0 % |
polymer | 1 | 0 % |
1982 | 1 | 0 % |
receptive | 1 | 0 % |
surface-piercing | 1 | 0 % |
jessup | 1 | 0 % |
gratings | 1 | 0 % |
heyman | 1 | 0 % |
conditional | 1 | 0 % |
vd | 1 | 0 % |
chromium | 1 | 0 % |
spacing | 1 | 0 % |
okada | 1 | 0 % |
marchisio | 1 | 0 % |
estimating | 1 | 0 % |
swole | 1 | 0 % |
distance | 1 | 0 % |
150-n7043 | 1 | 0 % |
empirically | 1 | 0 % |
bernd | 1 | 0 % |
seawater | 1 | 0 % |
fyletype | 1 | 0 % |
breakoff | 1 | 0 % |
dosher | 1 | 0 % |
superfluid | 1 | 0 % |
brix | 1 | 0 % |
naca16 | 1 | 0 % |
its | 1 | 0 % |
spindle | 1 | 0 % |
line | 1 | 0 % |
loading | 1 | 0 % |
droplets | 1 | 0 % |
mount | 1 | 0 % |
inducers | 1 | 0 % |
iodrj | 1 | 0 % |
some | 1 | 0 % |
measurements | 1 | 0 % |
ballast | 1 | 0 % |
linear | 1 | 0 % |
motor | 1 | 0 % |
haberman | 1 | 0 % |
books | 1 | 0 % |
web | 1 | 0 % |
face | 1 | 0 % |
alpha | 1 | 0 % |
heisenberg | 1 | 0 % |
set | 1 | 0 % |
binocular | 1 | 0 % |
flames | 1 | 0 % |
simplified | 1 | 0 % |
visualisation | 1 | 0 % |
frv | 1 | 0 % |
arakeri | 1 | 0 % |
non | 1 | 0 % |
against | 1 | 0 % |
merkle | 1 | 0 % |
papanicolau | 1 | 0 % |
investigations | 1 | 0 % |
hands | 1 | 0 % |
or | 1 | 0 % |
organic | 1 | 0 % |
perforated | 1 | 0 % |
field | 1 | 0 % |
dimentional | 1 | 0 % |
40 | 1 | 0 % |
fortes | 1 | 0 % |
process | 1 | 0 % |
rotor-stator | 1 | 0 % |
uses | 1 | 0 % |
theory | 1 | 0 % |
diffusion | 1 | 0 % |
okamura | 1 | 0 % |
determines | 1 | 0 % |
bbble | 1 | 0 % |
microbubbles | 1 | 0 % |
fragment | 1 | 0 % |
x | 1 | 0 % |
-- | 1 | 0 % |
edge | 1 | 0 % |
naca0012 | 1 | 0 % |
diatomic | 1 | 0 % |
reboud | 1 | 0 % |
hamburg | 1 | 0 % |
force | 1 | 0 % |
3d | 1 | 0 % |
boundaries | 1 | 0 % |
dyna | 1 | 0 % |
judgment | 1 | 0 % |
conical | 1 | 0 % |
kuklinsky | 1 | 0 % |
ava | 1 | 0 % |
blading | 1 | 0 % |
power | 1 | 0 % |
npsh | 1 | 0 % |
elements | 1 | 0 % |
matsuda | 1 | 0 % |
“etude | 1 | 0 % |
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