1148 different keywords | Search | Percent |
cavitation | 362 | 8.4 % |
of | 163 | 3.8 % |
orifice | 85 | 1.9 % |
propeller | 69 | 1.6 % |
in | 67 | 1.5 % |
and | 61 | 1.4 % |
vortex | 54 | 1.2 % |
pdf | 49 | 1.1 % |
flow | 48 | 1.1 % |
a | 46 | 1 % |
water | 45 | 1 % |
supercavitation | 41 | 0.9 % |
pump | 40 | 0.9 % |
bubble | 38 | 0.8 % |
analysis | 37 | 0.8 % |
restriction | 34 | 0.7 % |
on | 33 | 0.7 % |
model | 26 | 0.6 % |
joint | 26 | 0.6 % |
ship | 23 | 0.5 % |
the | 23 | 0.5 % |
noise | 23 | 0.5 % |
cavitating | 22 | 0.5 % |
for | 22 | 0.5 % |
numerical | 21 | 0.4 % |
surface | 20 | 0.4 % |
time-frequency | 20 | 0.4 % |
pressure | 19 | 0.4 % |
inducer | 19 | 0.4 % |
cavity | 18 | 0.4 % |
dynamics | 17 | 0.3 % |
erosion | 16 | 0.3 % |
tip | 16 | 0.3 % |
3d | 16 | 0.3 % |
simulation | 16 | 0.3 % |
design | 16 | 0.3 % |
method | 16 | 0.3 % |
rudder | 16 | 0.3 % |
filetype | 15 | 0.3 % |
with | 15 | 0.3 % |
rarefaction | 15 | 0.3 % |
unsteady | 14 | 0.3 % |
types | 14 | 0.3 % |
propellers | 14 | 0.3 % |
fluent | 14 | 0.3 % |
paper | 13 | 0.3 % |
butterfly | 13 | 0.3 % |
cav2001 | 13 | 0.3 % |
partial | 13 | 0.3 % |
centrifugal | 13 | 0.3 % |
jet | 12 | 0.2 % |
savchenko | 12 | 0.2 % |
flows | 12 | 0.2 % |
turbine | 12 | 0.2 % |
supercavitating | 12 | 0.2 % |
modeling | 12 | 0.2 % |
drag | 11 | 0.2 % |
liquid | 11 | 0.2 % |
rotating | 11 | 0.2 % |
to | 11 | 0.2 % |
naca | 11 | 0.2 % |
methods | 11 | 0.2 % |
valve | 11 | 0.2 % |
orifices | 11 | 0.2 % |
effect | 11 | 0.2 % |
by | 10 | 0.2 % |
acoustic | 10 | 0.2 % |
hydrodynamic | 10 | 0.2 % |
inducers | 10 | 0.2 % |
sae | 10 | 0.2 % |
motion | 10 | 0.2 % |
or | 10 | 0.2 % |
plate | 10 | 0.2 % |
prediction | 10 | 0.2 % |
frequency | 10 | 0.2 % |
experimental | 10 | 0.2 % |
horn | 9 | 0.2 % |
fluid | 9 | 0.2 % |
number | 9 | 0.2 % |
symposium | 9 | 0.2 % |
blade | 9 | 0.2 % |
hydrofoil | 9 | 0.2 % |
rocket | 9 | 0.2 % |
time | 9 | 0.2 % |
applications | 9 | 0.2 % |
tunnel | 9 | 0.2 % |
sheet | 9 | 0.2 % |
cfd | 9 | 0.2 % |
cav | 9 | 0.2 % |
from | 9 | 0.2 % |
turbopump | 8 | 0.1 % |
author | 8 | 0.1 % |
experiment | 8 | 0.1 % |
mass | 8 | 0.1 % |
how | 8 | 0.1 % |
scale | 8 | 0.1 % |
intitle | 8 | 0.1 % |
quality | 8 | 0.1 % |
coefficient | 8 | 0.1 % |
ventilated | 8 | 0.1 % |
stability | 8 | 0.1 % |
control | 8 | 0.1 % |
international | 8 | 0.1 % |
tab_hty | 8 | 0.1 % |
shock | 8 | 0.1 % |
characteristics | 8 | 0.1 % |
equation | 8 | 0.1 % |
type | 7 | 0.1 % |
bubbles | 7 | 0.1 % |
& | 7 | 0.1 % |
technical | 7 | 0.1 % |
distribution | 7 | 0.1 % |
wake | 7 | 0.1 % |
theoritical | 7 | 0.1 % |
wave | 7 | 0.1 % |
pumps | 7 | 0.1 % |
cavities | 7 | 0.1 % |
suction | 7 | 0.1 % |
submerged | 7 | 0.1 % |
high | 7 | 0.1 % |
at | 7 | 0.1 % |
piercing | 7 | 0.1 % |
phase | 6 | 0.1 % |
super | 6 | 0.1 % |
study | 6 | 0.1 % |
perspectives | 6 | 0.1 % |
piping | 6 | 0.1 % |
observation | 6 | 0.1 % |
pipe | 6 | 0.1 % |
bodies | 6 | 0.1 % |
collapse | 6 | 0.1 % |
regiane | 6 | 0.1 % |
2001 | 6 | 0.1 % |
patella | 6 | 0.1 % |
template | 6 | 0.1 % |
added | 6 | 0.1 % |
an | 6 | 0.1 % |
fortes | 6 | 0.1 % |
damage | 6 | 0.1 % |
interaction | 6 | 0.1 % |
re-entrant | 6 | 0.1 % |
speed | 6 | 0.1 % |
two | 6 | 0.1 % |
forces | 6 | 0.1 % |
supercavitation-problems | 6 | 0.1 % |
watanabe | 6 | 0.1 % |
kaplan | 6 | 0.1 % |
calculation | 6 | 0.1 % |
projectile | 5 | 0.1 % |
t. | 5 | 0.1 % |
oscillation | 5 | 0.1 % |
hull | 5 | 0.1 % |
vibrations | 5 | 0.1 % |
impact | 5 | 0.1 % |
boundary | 5 | 0.1 % |
kunz | 5 | 0.1 % |
cones | 5 | 0.1 % |
modelling | 5 | 0.1 % |
instabilities | 5 | 0.1 % |
condition | 5 | 0.1 % |
luminescence | 5 | 0.1 % |
lattice | 5 | 0.1 % |
spectrum | 5 | 0.1 % |
material | 5 | 0.1 % |
effects | 5 | 0.1 % |
structure | 5 | 0.1 % |
what | 4 | 0 % |
underwater | 4 | 0 % |
azipod | 4 | 0 % |
nonspherical | 4 | 0 % |
plates | 4 | 0 % |
microbubble | 4 | 0 % |
solid | 4 | 0 % |
partially | 4 | 0 % |
kavitation | 4 | 0 % |
series | 4 | 0 % |
performance | 4 | 0 % |
cone | 4 | 0 % |
pipes | 4 | 0 % |
oscillating | 4 | 0 % |
cavitator | 4 | 0 % |
past | 4 | 0 % |
valves | 4 | 0 % |
arl | 4 | 0 % |
papers | 4 | 0 % |
distance | 4 | 0 % |
sizing | 4 | 0 % |
velocity | 4 | 0 % |
expansion | 4 | 0 % |
pictures | 4 | 0 % |
history | 4 | 0 % |
j. | 4 | 0 % |
geometry | 4 | 0 % |
ukraine | 4 | 0 % |
discharge | 4 | 0 % |
hosangadi | 4 | 0 % |
cloud | 4 | 0 % |
new | 4 | 0 % |
downstream | 4 | 0 % |
diesel | 4 | 0 % |
damping | 4 | 0 % |
gas | 4 | 0 % |
turbo | 4 | 0 % |
a. | 4 | 0 % |
bubbly | 4 | 0 % |
induced | 4 | 0 % |
full | 4 | 0 % |
s | 4 | 0 % |
fifth | 4 | 0 % |
dam | 4 | 0 % |
2d | 4 | 0 % |
kuiper | 4 | 0 % |
homogeneous | 4 | 0 % |
nozzle | 4 | 0 % |
near | 4 | 0 % |
rayleigh | 4 | 0 % |
yawmeter | 3 | 0 % |
measurement | 3 | 0 % |
tomita | 3 | 0 % |
prop | 3 | 0 % |
coefficients | 3 | 0 % |
explosion | 3 | 0 % |
vapor | 3 | 0 % |
video | 3 | 0 % |
density | 3 | 0 % |
lift | 3 | 0 % |
naca0015 | 3 | 0 % |
injector | 3 | 0 % |
journal | 3 | 0 % |
laser | 3 | 0 % |
instability | 3 | 0 % |
state | 3 | 0 % |
nuclei | 3 | 0 % |
ring | 3 | 0 % |
axial | 3 | 0 % |
wing | 3 | 0 % |
oxygen | 3 | 0 % |
roosen | 3 | 0 % |
vof | 3 | 0 % |
emission | 3 | 0 % |
tissue | 3 | 0 % |
sump | 3 | 0 % |
20 | 3 | 0 % |
functions | 3 | 0 % |
panel | 3 | 0 % |
index | 3 | 0 % |
law | 3 | 0 % |
two-phase | 3 | 0 % |
free | 3 | 0 % |
contrast | 3 | 0 % |
hattori | 3 | 0 % |
saito | 3 | 0 % |
bearing | 3 | 0 % |
solution | 3 | 0 % |
radiated | 3 | 0 % |
angle | 3 | 0 % |
kinnas | 3 | 0 % |
theory | 3 | 0 % |
are | 3 | 0 % |
inside | 3 | 0 % |
edge | 3 | 0 % |
y. | 3 | 0 % |
technology | 3 | 0 % |
resistance | 3 | 0 % |
turbopumps | 3 | 0 % |
salt | 3 | 0 % |
diagram | 3 | 0 % |
data | 3 | 0 % |
impeller | 3 | 0 % |
spherical | 3 | 0 % |
bem | 3 | 0 % |
why | 3 | 0 % |
entry | 3 | 0 % |
size | 3 | 0 % |
body | 3 | 0 % |
spray | 3 | 0 % |
cryogenic | 3 | 0 % |
using | 3 | 0 % |
multiple | 3 | 0 % |
.pdf | 3 | 0 % |
university | 3 | 0 % |
formation | 3 | 0 % |
dynamic | 3 | 0 % |
clearance | 3 | 0 % |
scott | 3 | 0 % |
investigation | 3 | 0 % |
schnerr | 3 | 0 % |
p. | 3 | 0 % |
gowing | 3 | 0 % |
... | 3 | 0 % |
avellan | 3 | 0 % |
definition | 3 | 0 % |
testing | 3 | 0 % |
hydrophone | 3 | 0 % |
plesset | 3 | 0 % |
keller | 3 | 0 % |
circular | 3 | 0 % |
shima | 3 | 0 % |
site | 3 | 0 % |
song | 3 | 0 % |
calculate | 3 | 0 % |
vorticity | 3 | 0 % |
kuklinski | 3 | 0 % |
inception | 3 | 0 % |
l. | 3 | 0 % |
nexearch | 3 | 0 % |
sonoluminescence | 3 | 0 % |
particle | 2 | 0 % |
serebryakov | 2 | 0 % |
aiaa | 2 | 0 % |
moment | 2 | 0 % |
equilibrium | 2 | 0 % |
energy | 2 | 0 % |
scaling | 2 | 0 % |
incipient | 2 | 0 % |
marine | 2 | 0 % |
reduce | 2 | 0 % |
can | 2 | 0 % |
sauer | 2 | 0 % |
do2 | 2 | 0 % |
vertical | 2 | 0 % |
computational | 2 | 0 % |
promas | 2 | 0 % |
analysis. | 2 | 0 % |
trailing | 2 | 0 % |
proceedings | 2 | 0 % |
ductile | 2 | 0 % |
oti-hull | 2 | 0 % |
heat | 2 | 0 % |
modell | 2 | 0 % |
cone-like | 2 | 0 % |
implicit | 2 | 0 % |
henda | 2 | 0 % |
joussellin | 2 | 0 % |
submergence | 2 | 0 % |
empirical | 2 | 0 % |
tsujimoto | 2 | 0 % |
case | 2 | 0 % |
intake | 2 | 0 % |
supersonic | 2 | 0 % |
ittc | 2 | 0 % |
test | 2 | 0 % |
express | 2 | 0 % |
step | 2 | 0 % |
models | 2 | 0 % |
rayleigh-plesset | 2 | 0 % |
spyros | 2 | 0 % |
parameter | 2 | 0 % |
price | 2 | 0 % |
françois | 2 | 0 % |
elbow | 2 | 0 % |
4412 | 2 | 0 % |
he | 2 | 0 % |
radius | 2 | 0 % |
behavior | 2 | 0 % |
facilities | 2 | 0 % |
formed | 2 | 0 % |
reentrant | 2 | 0 % |
formula | 2 | 0 % |
horizontal | 2 | 0 % |
sound | 2 | 0 % |
due | 2 | 0 % |
soyama | 2 | 0 % |
kerwin | 2 | 0 % |
over | 2 | 0 % |
is | 2 | 0 % |
criterion | 2 | 0 % |
astm | 2 | 0 % |
multi-phase | 2 | 0 % |
rapposelli | 2 | 0 % |
lovik | 2 | 0 % |
profil | 2 | 0 % |
emilio | 2 | 0 % |
degassing | 2 | 0 % |
polymer | 2 | 0 % |
coeficient | 2 | 0 % |
under | 2 | 0 % |
m | 2 | 0 % |
water\ | 2 | 0 % |
16020 | 2 | 0 % |
across | 2 | 0 % |
8103 | 2 | 0 % |
djeridi | 2 | 0 % |
sidney | 2 | 0 % |
hydrophones | 2 | 0 % |
bernd | 2 | 0 % |
green | 2 | 0 % |
hess | 2 | 0 % |
1.5 | 2 | 0 % |
pulse | 2 | 0 % |
pinhole | 2 | 0 % |
channel | 2 | 0 % |
generalized | 2 | 0 % |
real | 2 | 0 % |
1994 | 2 | 0 % |
techniques | 2 | 0 % |
jenway | 2 | 0 % |
centigrade | 2 | 0 % |
hydro | 2 | 0 % |
exciting | 2 | 0 % |
does | 2 | 0 % |
location | 2 | 0 % |
s. | 2 | 0 % |
engine | 2 | 0 % |
reynolds | 2 | 0 % |
shape | 2 | 0 % |
wang | 2 | 0 % |
compressible | 2 | 0 % |
research | 2 | 0 % |
trials | 2 | 0 % |
tullis | 2 | 0 % |
transonic | 2 | 0 % |
example | 2 | 0 % |
a=0.8 | 2 | 0 % |
vs | 2 | 0 % |
phenomenon | 2 | 0 % |
power | 2 | 0 % |
code | 2 | 0 % |
electro | 2 | 0 % |
turbulent | 2 | 0 % |
waves | 2 | 0 % |
consideration | 2 | 0 % |
adjusting | 2 | 0 % |
zhou | 2 | 0 % |
nozzles | 2 | 0 % |
- | 2 | 0 % |
b&k | 2 | 0 % |
image | 2 | 0 % |
thesis | 2 | 0 % |
mixture | 2 | 0 % |
narrow | 2 | 0 % |
injection | 2 | 0 % |
multiphase | 2 | 0 % |
senocak | 2 | 0 % |
mechanism | 2 | 0 % |
fan | 2 | 0 % |
dumbell | 2 | 0 % |
disertation | 2 | 0 % |
older | 2 | 0 % |
closed | 2 | 0 % |
ashwin | 2 | 0 % |
tree | 2 | 0 % |
represent | 2 | 0 % |
southampton | 2 | 0 % |
problems | 2 | 0 % |
second | 2 | 0 % |
al | 2 | 0 % |
section | 2 | 0 % |
m. | 2 | 0 % |
work | 2 | 0 % |
inurl | 2 | 0 % |
meter | 2 | 0 % |
mod | 2 | 0 % |
3dynafs | 2 | 0 % |
critical | 2 | 0 % |
three | 2 | 0 % |
8104 | 2 | 0 % |
simulations | 2 | 0 % |
venturi | 2 | 0 % |
francis | 2 | 0 % |
volume | 2 | 0 % |
.edu | 2 | 0 % |
turbulence | 2 | 0 % |
results | 2 | 0 % |
conclusion | 2 | 0 % |
viscous | 2 | 0 % |
three-dimensional | 2 | 0 % |
temperature | 2 | 0 % |
properties | 2 | 0 % |
open | 2 | 0 % |
hitoshi | 2 | 0 % |
2009 | 2 | 0 % |
k. | 2 | 0 % |
ful | 2 | 0 % |
thrust | 2 | 0 % |
helium | 2 | 0 % |
g134 | 2 | 0 % |
guide | 2 | 0 % |
momentum | 2 | 0 % |
inanc | 2 | 0 % |
starting | 2 | 0 % |
1986 | 2 | 0 % |
piercings | 2 | 0 % |
liquid-jet | 2 | 0 % |
pscillation | 2 | 0 % |
vaporous | 2 | 0 % |
potential | 2 | 0 % |
sensor | 2 | 0 % |
andreas | 2 | 0 % |
loss | 2 | 0 % |
hydraulic | 2 | 0 % |
characteristic | 2 | 0 % |
level | 2 | 0 % |
edu | 2 | 0 % |
minimum | 2 | 0 % |
efficiency | 2 | 0 % |
ships | 2 | 0 % |
hydroacoustic | 2 | 0 % |
sea | 2 | 0 % |
efffect | 2 | 0 % |
scales | 2 | 0 % |
9071 | 2 | 0 % |
inferred | 2 | 0 % |
qin | 2 | 0 % |
lifting | 2 | 0 % |
high-speed | 2 | 0 % |
rotor | 2 | 0 % |
photos | 2 | 0 % |
barotropic | 2 | 0 % |
f | 2 | 0 % |
spl | 1 | 0 % |
sodium | 1 | 0 % |
71 | 1 | 0 % |
two-bladed | 1 | 0 % |
ro | 1 | 0 % |
osborn | 1 | 0 % |
load | 1 | 0 % |
rotation | 1 | 0 % |
orificeplate | 1 | 0 % |
calculations | 1 | 0 % |
shapes | 1 | 0 % |
light | 1 | 0 % |
basin | 1 | 0 % |
acustica | 1 | 0 % |
stat | 1 | 0 % |
lord | 1 | 0 % |
materials | 1 | 0 % |
used | 1 | 0 % |
gravity | 1 | 0 % |
nishida | 1 | 0 % |
system | 1 | 0 % |
wall | 1 | 0 % |
metastability | 1 | 0 % |
electromagnetic | 1 | 0 % |
hem | 1 | 0 % |
cμ | 1 | 0 % |
break-off | 1 | 0 % |
non-uniform | 1 | 0 % |
shockwave | 1 | 0 % |
developments | 1 | 0 % |
jets | 1 | 0 % |
closing | 1 | 0 % |
storey | 1 | 0 % |
ganippa | 1 | 0 % |
background | 1 | 0 % |
argon | 1 | 0 % |
yoshinobu | 1 | 0 % |
henrik | 1 | 0 % |
ground | 1 | 0 % |
predicting | 1 | 0 % |
g.h. | 1 | 0 % |
euler | 1 | 0 % |
lights | 1 | 0 % |
helical | 1 | 0 % |
elbows | 1 | 0 % |
copyright | 1 | 0 % |
hydrodynamique | 1 | 0 % |
lindau | 1 | 0 % |
wrong | 1 | 0 % |
proposal | 1 | 0 % |
future | 1 | 0 % |
sample | 1 | 0 % |
1999 | 1 | 0 % |
hydrocode | 1 | 0 % |
nucleation | 1 | 0 % |
drying | 1 | 0 % |
hall | 1 | 0 % |
different | 1 | 0 % |
inch | 1 | 0 % |
phil. | 1 | 0 % |
runner | 1 | 0 % |
universitat | 1 | 0 % |
surfaces | 1 | 0 % |
attached | 1 | 0 % |
industrial | 1 | 0 % |
aluminum | 1 | 0 % |
problem | 1 | 0 % |
smith | 1 | 0 % |
mechanics | 1 | 0 % |
jis | 1 | 0 % |
caltech | 1 | 0 % |
stainless | 1 | 0 % |
steepening | 1 | 0 % |
frequency-time | 1 | 0 % |
npl | 1 | 0 % |
. | 1 | 0 % |
c. | 1 | 0 % |
requirements | 1 | 0 % |
software | 1 | 0 % |
kamijo | 1 | 0 % |
vortices | 1 | 0 % |
floberg | 1 | 0 % |
highly | 1 | 0 % |
equations | 1 | 0 % |
laminar | 1 | 0 % |
nonequilibrium | 1 | 0 % |
non–spherical | 1 | 0 % |
gate | 1 | 0 % |
ag | 1 | 0 % |
rate | 1 | 0 % |
okado | 1 | 0 % |
inner | 1 | 0 % |
kyowa | 1 | 0 % |
pressure-based | 1 | 0 % |
bubblr | 1 | 0 % |
cavataion | 1 | 0 % |
54356 | 1 | 0 % |
base | 1 | 0 % |
weber | 1 | 0 % |
kam | 1 | 0 % |
trouble | 1 | 0 % |
01 | 1 | 0 % |
crown | 1 | 0 % |
technishe | 1 | 0 % |
surging | 1 | 0 % |
air-intake | 1 | 0 % |
chapman | 1 | 0 % |
source | 1 | 0 % |
evu | 1 | 0 % |
front | 1 | 0 % |
drawings | 1 | 0 % |
94-98 | 1 | 0 % |
dymanics | 1 | 0 % |
conservative | 1 | 0 % |
occur | 1 | 0 % |
fragments | 1 | 0 % |
documentation | 1 | 0 % |
ration | 1 | 0 % |
ellipsoid | 1 | 0 % |
bucket | 1 | 0 % |
templ;ate | 1 | 0 % |
causes | 1 | 0 % |
thickness | 1 | 0 % |
italia | 1 | 0 % |
asymptotic | 1 | 0 % |
planform | 1 | 0 % |
caflisch | 1 | 0 % |
finit | 1 | 0 % |
occurence | 1 | 0 % |
max | 1 | 0 % |
roll | 1 | 0 % |
configurations | 1 | 0 % |
occurs | 1 | 0 % |
szeri | 1 | 0 % |
mcnown | 1 | 0 % |
phantom | 1 | 0 % |
about | 1 | 0 % |
algorithm | 1 | 0 % |
papert | 1 | 0 % |
poping | 1 | 0 % |
taylor | 1 | 0 % |
barth | 1 | 0 % |
bell | 1 | 0 % |
jfta | 1 | 0 % |
de | 1 | 0 % |
their | 1 | 0 % |
liquids | 1 | 0 % |
chart | 1 | 0 % |
interference | 1 | 0 % |
up | 1 | 0 % |
s15c | 1 | 0 % |
boiling | 1 | 0 % |
1973 | 1 | 0 % |
1991 | 1 | 0 % |
shen | 1 | 0 % |
vasin | 1 | 0 % |
fresh | 1 | 0 % |
blood | 1 | 0 % |
p | 1 | 0 % |
c1100 | 1 | 0 % |
file | 1 | 0 % |
dimensions | 1 | 0 % |
pit | 1 | 0 % |
loop | 1 | 0 % |
degrees | 1 | 0 % |
y | 1 | 0 % |
lohrberg | 1 | 0 % |
thermal | 1 | 0 % |
www.tplox.com | 1 | 0 % |
aggressiveness | 1 | 0 % |
rotors-navier-stokes | 1 | 0 % |
butterflyvalves | 1 | 0 % |
oike | 1 | 0 % |
jtfa | 1 | 0 % |
fracture | 1 | 0 % |
breakdowns | 1 | 0 % |
related | 1 | 0 % |
nonlinear | 1 | 0 % |
ting | 1 | 0 % |
daring | 1 | 0 % |
mccormick | 1 | 0 % |
raphson | 1 | 0 % |
oscillatory | 1 | 0 % |
‘‘effective | 1 | 0 % |
dimensional | 1 | 0 % |
asymmetric | 1 | 0 % |
operation | 1 | 0 % |
naval | 1 | 0 % |
cascade | 1 | 0 % |
extreme | 1 | 0 % |
“ | 1 | 0 % |
g. | 1 | 0 % |
technik | 1 | 0 % |
lecture | 1 | 0 % |
length | 1 | 0 % |
ng | 1 | 0 % |
maltzev | 1 | 0 % |
notes | 1 | 0 % |
günter | 1 | 0 % |
hi | 1 | 0 % |
adaptor | 1 | 0 % |
stokes | 1 | 0 % |
oti | 1 | 0 % |
restricted | 1 | 0 % |
hydrofoils | 1 | 0 % |
split | 1 | 0 % |
cavitasion | 1 | 0 % |
waterflow | 1 | 0 % |
chalmers | 1 | 0 % |
.ac | 1 | 0 % |
propellor | 1 | 0 % |
parameters | 1 | 0 % |
c | 1 | 0 % |
ventilation | 1 | 0 % |
ships. | 1 | 0 % |
skewed | 1 | 0 % |
azimutal | 1 | 0 % |
position | 1 | 0 % |
super-cavity | 1 | 0 % |
alh | 1 | 0 % |
asme | 1 | 0 % |
plant | 1 | 0 % |
pgm-10 | 1 | 0 % |
sketch | 1 | 0 % |
features | 1 | 0 % |
finite-volume | 1 | 0 % |
theoretical | 1 | 0 % |
turbines | 1 | 0 % |
decelerated | 1 | 0 % |
foil | 1 | 0 % |
estimating | 1 | 0 % |
caused | 1 | 0 % |
meshes | 1 | 0 % |
igniter | 1 | 0 % |
table | 1 | 0 % |
upstrea | 1 | 0 % |
maitre | 1 | 0 % |
pfi | 1 | 0 % |
jakobsen | 1 | 0 % |
line | 1 | 0 % |
loading | 1 | 0 % |
gotfred | 1 | 0 % |
digree | 1 | 0 % |
developed | 1 | 0 % |
dublett | 1 | 0 % |
vortexrudder | 1 | 0 % |
2. inner | 1 | 0 % |
wastewater | 1 | 0 % |
some | 1 | 0 % |
vanes | 1 | 0 % |
“joint | 1 | 0 % |
recirculation | 1 | 0 % |
detection | 1 | 0 % |
ballast | 1 | 0 % |
function | 1 | 0 % |
tokumasu | 1 | 0 % |
delay | 1 | 0 % |
stepanov | 1 | 0 % |
dissolved | 1 | 0 % |
surfaces. | 1 | 0 % |
camera | 1 | 0 % |
ideo | 1 | 0 % |
large | 1 | 0 % |
berntsen | 1 | 0 % |
lithotripsy | 1 | 0 % |
journal.pdf | 1 | 0 % |
equations-pdf | 1 | 0 % |
vessel | 1 | 0 % |
freestream.com | 1 | 0 % |
non | 1 | 0 % |
remedies | 1 | 0 % |
counting | 1 | 0 % |
ocean | 1 | 0 % |
david | 1 | 0 % |
papanicolau | 1 | 0 % |
merkle | 1 | 0 % |
acceleration | 1 | 0 % |
dissipation | 1 | 0 % |
arndt | 1 | 0 % |
inshock | 1 | 0 % |
spinodal | 1 | 0 % |
field | 1 | 0 % |
rates | 1 | 0 % |
atomizing | 1 | 0 % |
origin | 1 | 0 % |
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KIVA runge-kutta | 1 | 0 % |
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Other words | 148 | 3.4 % |
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