430 different keywords | Search | Percent |
cavitation | 96 | 8.2 % |
of | 55 | 4.7 % |
vortex | 27 | 2.3 % |
in | 24 | 2 % |
and | 19 | 1.6 % |
tip | 18 | 1.5 % |
bubble | 17 | 1.4 % |
pump | 16 | 1.3 % |
numerical | 15 | 1.2 % |
erosion | 15 | 1.2 % |
on | 14 | 1.2 % |
propeller | 14 | 1.2 % |
model | 13 | 1.1 % |
flows | 13 | 1.1 % |
a | 12 | 1 % |
simulation | 12 | 1 % |
flow | 11 | 0.9 % |
jet | 11 | 0.9 % |
the | 11 | 0.9 % |
for | 11 | 0.9 % |
vlsi | 10 | 0.8 % |
cavitating | 10 | 0.8 % |
design | 9 | 0.7 % |
http | 8 | 0.6 % |
supercavitation | 8 | 0.6 % |
2001 | 8 | 0.6 % |
experimental | 8 | 0.6 % |
centrifugal | 8 | 0.6 % |
inducer | 7 | 0.6 % |
pdf | 7 | 0.6 % |
mechanism | 7 | 0.6 % |
test | 7 | 0.6 % |
unsteady | 7 | 0.6 % |
publications | 6 | 0.5 % |
study | 6 | 0.5 % |
reentrant | 6 | 0.5 % |
ventilated | 6 | 0.5 % |
turbulent | 5 | 0.4 % |
water | 5 | 0.4 % |
international | 5 | 0.4 % |
solid | 5 | 0.4 % |
symposium | 5 | 0.4 % |
cavity | 5 | 0.4 % |
pumps | 5 | 0.4 % |
collapse | 5 | 0.4 % |
cavities | 5 | 0.4 % |
measurement | 4 | 0.3 % |
waves | 4 | 0.3 % |
bubbles | 4 | 0.3 % |
algorithm | 4 | 0.3 % |
scale | 4 | 0.3 % |
behavior | 4 | 0.3 % |
restriction | 4 | 0.3 % |
dynamic | 4 | 0.3 % |
turbo | 4 | 0.3 % |
helium | 4 | 0.3 % |
acoustic | 4 | 0.3 % |
blade | 4 | 0.3 % |
to | 4 | 0.3 % |
submerged | 4 | 0.3 % |
effects | 4 | 0.3 % |
boundaries | 3 | 0.2 % |
re-entrant | 3 | 0.2 % |
turbopump | 3 | 0.2 % |
modeling | 3 | 0.2 % |
multiphase | 3 | 0.2 % |
fruman | 3 | 0.2 % |
dynamics | 3 | 0.2 % |
concerning | 3 | 0.2 % |
number | 3 | 0.2 % |
large-eddy | 3 | 0.2 % |
observation | 3 | 0.2 % |
pipe | 3 | 0.2 % |
models | 3 | 0.2 % |
questions | 3 | 0.2 % |
complexity | 3 | 0.2 % |
orifice | 3 | 0.2 % |
prediction | 3 | 0.2 % |
//caltechconf.library.caltech.edu/143/1/pope.pdf | 3 | 0.2 % |
liquid | 3 | 0.2 % |
mos | 3 | 0.2 % |
ship | 3 | 0.2 % |
oscillating | 3 | 0.2 % |
butterfly | 3 | 0.2 % |
valve | 3 | 0.2 % |
filetype | 3 | 0.2 % |
hydrofoil | 3 | 0.2 % |
ten | 3 | 0.2 % |
from | 3 | 0.2 % |
effect | 3 | 0.2 % |
kaplan | 3 | 0.2 % |
near | 3 | 0.2 % |
between | 3 | 0.2 % |
vs | 3 | 0.2 % |
noise | 3 | 0.2 % |
3d | 3 | 0.2 % |
e | 2 | 0.1 % |
what | 2 | 0.1 % |
materials | 2 | 0.1 % |
time | 2 | 0.1 % |
azipod | 2 | 0.1 % |
investigating | 2 | 0.1 % |
sumulations | 2 | 0.1 % |
flop | 2 | 0.1 % |
bit | 2 | 0.1 % |
k | 2 | 0.1 % |
isothermal | 2 | 0.1 % |
kamijo | 2 | 0.1 % |
quantitative | 2 | 0.1 % |
ultrasound | 2 | 0.1 % |
maneuvering | 2 | 0.1 % |
element | 2 | 0.1 % |
joussellin | 2 | 0.1 % |
wave | 2 | 0.1 % |
flipflop | 2 | 0.1 % |
flip | 2 | 0.1 % |
size | 2 | 0.1 % |
tunnel | 2 | 0.1 % |
surface | 2 | 0.1 % |
cloud | 2 | 0.1 % |
workshop | 2 | 0.1 % |
simulations | 2 | 0.1 % |
pressure | 2 | 0.1 % |
aggressiveness | 2 | 0.1 % |
due | 2 | 0.1 % |
analysis | 2 | 0.1 % |
clearance | 2 | 0.1 % |
submerge | 2 | 0.1 % |
numericals | 2 | 0.1 % |
pan | 2 | 0.1 % |
is | 2 | 0.1 % |
investigation | 2 | 0.1 % |
turbine | 2 | 0.1 % |
s | 2 | 0.1 % |
rotating | 2 | 0.1 % |
hydrodynamic | 2 | 0.1 % |
adiabatic | 2 | 0.1 % |
fluent | 2 | 0.1 % |
free | 2 | 0.1 % |
et. | 2 | 0.1 % |
processing | 2 | 0.1 % |
through | 2 | 0.1 % |
hexagonal | 2 | 0.1 % |
plesset | 2 | 0.1 % |
moore | 2 | 0.1 % |
serial | 2 | 0.1 % |
planktons | 2 | 0.1 % |
installation | 2 | 0.1 % |
advantages | 2 | 0.1 % |
solution | 2 | 0.1 % |
rocket | 2 | 0.1 % |
arndt | 2 | 0.1 % |
boundary | 2 | 0.1 % |
memory | 2 | 0.1 % |
kung | 2 | 0.1 % |
preconditioning | 2 | 0.1 % |
interaction | 2 | 0.1 % |
boundaries. | 2 | 0.1 % |
rayleigh | 2 | 0.1 % |
al. | 2 | 0.1 % |
leakage | 2 | 0.1 % |
structure | 2 | 0.1 % |
potrntrn | 1 | 0 % |
-mammal | 1 | 0 % |
mechansm | 1 | 0 % |
implementation | 1 | 0 % |
elements | 1 | 0 % |
j. | 1 | 0 % |
forming | 1 | 0 % |
m/s | 1 | 0 % |
pitting | 1 | 0 % |
underwater | 1 | 0 % |
energy | 1 | 0 % |
scaling | 1 | 0 % |
system | 1 | 0 % |
electromagnetic | 1 | 0 % |
erision | 1 | 0 % |
dir | 1 | 0 % |
strength | 1 | 0 % |
nozzles | 1 | 0 % |
sessiona5.003 | 1 | 0 % |
- | 1 | 0 % |
speed | 1 | 0 % |
jets | 1 | 0 % |
variation | 1 | 0 % |
ganippa | 1 | 0 % |
part | 1 | 0 % |
board | 1 | 0 % |
rebound | 1 | 0 % |
predicting | 1 | 0 % |
stability | 1 | 0 % |
les | 1 | 0 % |
experiment | 1 | 0 % |
bellmouth | 1 | 0 % |
review | 1 | 0 % |
lionel | 1 | 0 % |
fluid | 1 | 0 % |
salt | 1 | 0 % |
achkinadze | 1 | 0 % |
copper | 1 | 0 % |
corrosion | 1 | 0 % |
microbubble | 1 | 0 % |
scaled-up | 1 | 0 % |
computational | 1 | 0 % |
development | 1 | 0 % |
limitation | 1 | 0 % |
runner | 1 | 0 % |
surfaces | 1 | 0 % |
vibration | 1 | 0 % |
attached | 1 | 0 % |
advent | 1 | 0 % |
coutier-delgosha | 1 | 0 % |
problem | 1 | 0 % |
trailing | 1 | 0 % |
incompressible | 1 | 0 % |
spilled | 1 | 0 % |
control | 1 | 0 % |
yakushiji | 1 | 0 % |
bem | 1 | 0 % |
hydrofil | 1 | 0 % |
requirements | 1 | 0 % |
vortices | 1 | 0 % |
toroidal | 1 | 0 % |
concerns | 1 | 0 % |
inlet | 1 | 0 % |
area-time | 1 | 0 % |
subgrid | 1 | 0 % |
laminar | 1 | 0 % |
scalted | 1 | 0 % |
rate | 1 | 0 % |
schlieren | 1 | 0 % |
navy | 1 | 0 % |
geometrical | 1 | 0 % |
problems | 1 | 0 % |
perspectives | 1 | 0 % |
behaviour | 1 | 0 % |
self-timed | 1 | 0 % |
applications | 1 | 0 % |
laser-induced | 1 | 0 % |
al | 1 | 0 % |
protection | 1 | 0 % |
bubles | 1 | 0 % |
stage | 1 | 0 % |
injector | 1 | 0 % |
shock | 1 | 0 % |
characteristics | 1 | 0 % |
separation | 1 | 0 % |
intake | 1 | 0 % |
during | 1 | 0 % |
causes | 1 | 0 % |
side | 1 | 0 % |
laser | 1 | 0 % |
dyslexia | 1 | 0 % |
multiple | 1 | 0 % |
facing | 1 | 0 % |
technologies | 1 | 0 % |
instability | 1 | 0 % |
advantage | 1 | 0 % |
j | 1 | 0 % |
step | 1 | 0 % |
gap | 1 | 0 % |
hardware | 1 | 0 % |
inter | 1 | 0 % |
mass | 1 | 0 % |
evaluation | 1 | 0 % |
et | 1 | 0 % |
similarities | 1 | 0 % |
cf | 1 | 0 % |
tunnels | 1 | 0 % |
blowing | 1 | 0 % |
-sparrows | 1 | 0 % |
killing | 1 | 0 % |
collapsing | 1 | 0 % |
sine | 1 | 0 % |
bodies | 1 | 0 % |
olivier | 1 | 0 % |
//caltechconf.library.caltech.edu/55/1/cav2001_hofmann.pdf | 1 | 0 % |
orrifice | 1 | 0 % |
emission | 1 | 0 % |
backward | 1 | 0 % |
radius | 1 | 0 % |
fresh | 1 | 0 % |
delale | 1 | 0 % |
performance | 1 | 0 % |
formed | 1 | 0 % |
two | 1 | 0 % |
technical | 1 | 0 % |
viscous | 1 | 0 % |
diesel | 1 | 0 % |
wide | 1 | 0 % |
sump | 1 | 0 % |
properties | 1 | 0 % |
nightmarish | 1 | 0 % |
delgosha | 1 | 0 % |
collapsed | 1 | 0 % |
//caltechconf.library.caltech.edu/209/ | 1 | 0 % |
characterization | 1 | 0 % |
meters | 1 | 0 % |
fluids | 1 | 0 % |
conference | 1 | 0 % |
paper | 1 | 0 % |
supercavitation-problems | 1 | 0 % |
dispersing | 1 | 0 % |
transportation | 1 | 0 % |
amphibian | 1 | 0 % |
sheet | 1 | 0 % |
tips | 1 | 0 % |
within | 1 | 0 % |
comparisonof | 1 | 0 % |
metal | 1 | 0 % |
cavitator | 1 | 0 % |
crash | 1 | 0 % |
law | 1 | 0 % |
single-hole | 1 | 0 % |
stephen | 1 | 0 % |
p. | 1 | 0 % |
2 | 1 | 0 % |
bubbly | 1 | 0 % |
march | 1 | 0 % |
hydrofoils | 1 | 0 % |
ryo | 1 | 0 % |
acosta | 1 | 0 % |
induced | 1 | 0 % |
tension | 1 | 0 % |
starting | 1 | 0 % |
impact | 1 | 0 % |
leiserson | 1 | 0 % |
alexander | 1 | 0 % |
partial | 1 | 0 % |
eddy | 1 | 0 % |
suction | 1 | 0 % |
manufacturing | 1 | 0 % |
instabilities | 1 | 0 % |
orifices | 1 | 0 % |
spanwise | 1 | 0 % |
gilbarg | 1 | 0 % |
industry | 1 | 0 % |
rarefaction | 1 | 0 % |
well | 1 | 0 % |
oil | 1 | 0 % |
-rats | 1 | 0 % |
collaps | 1 | 0 % |
flows. | 1 | 0 % |
gordon | 1 | 0 % |
systolic | 1 | 0 % |
testing | 1 | 0 % |
//caltechconf.library.caltech.edu/62/1/cav2001_joussellin.pdf | 1 | 0 % |
around | 1 | 0 % |
reliability | 1 | 0 % |
phenomena | 1 | 0 % |
work-hardening | 1 | 0 % |
random-dot | 1 | 0 % |
clusters | 1 | 0 % |
2d | 1 | 0 % |
line | 1 | 0 % |
mixing | 1 | 0 % |
utilization | 1 | 0 % |
keller | 1 | 0 % |
inducers | 1 | 0 % |
1. | 1 | 0 % |
layer | 1 | 0 % |
franc | 1 | 0 % |
simple | 1 | 0 % |
mpc580 | 1 | 0 % |
supercavity | 1 | 0 % |
with | 1 | 0 % |
efficiency | 1 | 0 % |
ballast | 1 | 0 % |
vulcain | 1 | 0 % |
btn | 1 | 0 % |
added | 1 | 0 % |
array | 1 | 0 % |
stimuli | 1 | 0 % |
spectrometer | 1 | 0 % |
rans | 1 | 0 % |
joint | 1 | 0 % |
generalized | 1 | 0 % |
motion | 1 | 0 % |
method | 1 | 0 % |
alternate | 1 | 0 % |
real | 1 | 0 % |
radiated | 1 | 0 % |
frv | 1 | 0 % |
1978 | 1 | 0 % |
large | 1 | 0 % |
nozzle | 1 | 0 % |
dissertation | 1 | 0 % |
acav | 1 | 0 % |
wake | 1 | 0 % |
hydro | 1 | 0 % |
-verbal | 1 | 0 % |
material | 1 | 0 % |
kinetograms | 1 | 0 % |
atlar | 1 | 0 % |
usa | 1 | 0 % |
spatial | 1 | 0 % |
dynaflow | 1 | 0 % |
qin | 1 | 0 % |
interface | 1 | 0 % |
-python | 1 | 0 % |
field | 1 | 0 % |
laboratory | 1 | 0 % |
diversion | 1 | 0 % |
environmental | 1 | 0 % |
song | 1 | 0 % |
triple | 1 | 0 % |
report | 1 | 0 % |
engine | 1 | 0 % |
theory | 1 | 0 % |
//caltechconf.library.caltech.edu/182/1/charleslseitz.pdf | 1 | 0 % |
shape | 1 | 0 % |
vorticity | 1 | 0 % |
issues | 1 | 0 % |
inception | 1 | 0 % |
benefits | 1 | 0 % |
compressible | 1 | 0 % |
high | 1 | 0 % |
transparent | 1 | 0 % |
studies | 1 | 0 % |
edge | 1 | 0 % |
f | 1 | 0 % |
physical | 1 | 0 % |
cav2001 | 1 | 0 % |
picture | 1 | 0 % |
stop | 1 | 0 % |
without | 1 | 0 % |
particles | 1 | 0 % |
//caltechconf.library.caltech.edu/82/1/some_problems_of_supersonic_cavitation_flows.pdf | 1 | 0 % |
phenomenon | 1 | 0 % |
incubation | 1 | 0 % |