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440 different keyphrasesSearchPercent
supercavitation81.3 %
design hierarchy in vlsi61 %
cavitation history50.8 %
cavitation orifice40.6 %
the use of cavitating jets to oxidize organic compounds in water40.6 %
submerged water jets40.6 %
cavitation leading edge shape40.6 %
supercavitation problems and perspectives40.6 %
cavitating inducer instabilities experimental analysis and 2d numerical simulation of unsteady flow in blade cascade40.6 %
hierarchy in vlsi30.5 %
cavitation across restriction orifice30.5 %
restriction orifices30.5 %
peters jan & schaal stefan 2004. learning motor primitives with reinforcement learning.30.5 %
some problems of supersonic cavitation flows30.5 %
multiphase centrifugal pump30.5 %
algorithms for vlsi processor arrays30.5 %
cavitation number restriction orifice30.5 %
cavitation number30.5 %
the trailing edge method30.5 %
submerged vortex30.5 %
http //caltechconf.library.caltech.edu/143/1/pope.pdf30.5 %
vlsi hierarchical design30.5 %
restriction orifice30.5 %
fluent cavitation numerical simulation30.5 %
vlsi and drives projects30.5 %
inducer design30.5 %
international symposium on cavitation20.3 %
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an introduction to vlsi physical design20.3 %
steady state cavitation model20.3 %
supercavitation serebryakov20.3 %
experimental study of ventilated cavities on dynamic test model20.3 %
hierarchy in vlsi design20.3 %
experimental studey of cavitation in kaplan model turbine cav 2001 bark20.3 %
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partial cavitation20.3 %
numerical study of cavitation on hydrofoils20.3 %
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logvinovich hydrodynamics of flows with free boundaries free boundary flows20.3 %
suction inducer20.3 %
cavitation erosion model20.3 %
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advantages of vlsi desighn20.3 %
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effect of the submerged vortex cavitation occured in pump suction on hydraulic forces of mixed flow pump impeller20.3 %
“numerical modeling of sheet and tip vortex cavitation with fluent 520.3 %
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analysis cavitating flow horn rudder race propeller20.3 %
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merkle cavitation shen20.3 %
transistor mpc20.3 %
cavitative disintegration of liquid explosive loading20.3 %
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tsujimoto y. simple rules for cavitation instabilities in turbomachinery. cav2001 lecture.006 2001.20.3 %
ic functional verification20.3 %
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bubble physics20.3 %
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http //caltechconf.library.caltech.edu/42/1/pasadena.ps20.3 %
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surface-piercing propellers20.3 %
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coefficient of discharge for restriction orifices20.3 %
mechanism of wave erosion20.3 %
methods of theory of dimensionality and similarity in problems of ship hydromechanics.20.3 %
water entry and cavity-running behavior of missiles.20.3 %
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an experimental study on submerged vortices and flow pattern in the pump sump20.3 %
numerical simulation of cavitating turbulent flow20.3 %
use of mathematics in vlsi20.3 %
furst r. and desclaux j. “a simple procedure for prediction of npsh required by inducers ” pumping machinery 1989 asme fed-81 asme new york.20.3 %
tulin supercavitation or supercavitating20.3 %
hydrofoil detachement20.3 %
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mikael grekula and goran bark20.3 %
comparison of cavitation phenomena in transparent scaled-up single-hole diesel nozzles20.3 %
added mass high speed water supercavitating20.3 %
rules for cavitations20.3 %
rayleigh plesset equation10.1 %
the effect of hydroplanes parameters on underwater vehicle hydrodynamics10.1 %
guibas l.j. kung h.t. and thompson c.d. direct vlsi implementation. of combinatorial algorithms proc. conference on very large scale integration architecture design fabrication california institute of technology january 1979.10.1 %
experimental and numerical studies in a centrifugal pump with two-dimensional curved blades in cavitating condition10.1 %
restricted orifice sizing10.1 %
design of restrictive orifice plates in water pipe10.1 %
the length of the cavity follows the relation l=l 1 .2510.1 %
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orifice test experiment report10.1 %
numerical prediction method of cavitation erosion10.1 %
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oscillation of bubbles10.1 %
flow orifice design for low noise10.1 %
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subgrid-scale models10.1 %
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large eddy simulation of multiphase flow10.1 %
calculation examples added mass10.1 %
azipod10.1 %
modelling temporal decisions10.1 %
helical inducer10.1 %
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conclusion of characteristic of a single centrifugal pump10.1 %
interface tracking methods unrans10.1 %
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lithotripter shock wave simulation10.1 %
cavitation number correlations10.1 %
universidad de bologna hydro dynamic cavitation10.1 %
b-factor stepanoff10.1 %
naca66 mod hydrofoil10.1 %
kring sclavounos10.1 %
godunov10.1 %
effective numerical viscosity10.1 %
sump pump intake design10.1 %
submerged vortices10.1 %
navier stokes10.1 %
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cavitation corrosion mechanism10.1 %
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erosion cavitation energy10.1 %
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rolla propeller experiment10.1 %
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effect of vortex on pump10.1 %
optimal les10.1 %
mcdermott linear eddy modeling10.1 %
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hydrodynamic cavitation crystallization device and process pdf10.1 %
centrifugal pump characteristic10.1 %
added mass calculation10.1 %
restriction orifice 310.1 %
discharge cavitation after orrifice10.1 %
bubbles and ultrasound10.1 %
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advantages of vlsi design10.1 %
advantages layout in vlsi10.1 %
bisection width of bipartite graph10.1 %
orifice noise filetype pdf10.1 %
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propeller tip vortex cavitation noise international warship conference10.1 %
supercavitation in surface piercing propeller10.1 %
azipod propeller10.1 %
s cav program savchenko10.1 %
restriction orifice installation guidelines10.1 %
vortex cavitation10.1 %
rocket inducer10.1 %
c. d. thompson “area-time complexity for vlsi10.1 %
counterjet cavitation10.1 %
cavitation noise measurements10.1 %
experiment and-to find characteristic of a centrifugal pump10.1 %
restriction orifice cavitation10.1 %
surface piercing model10.1 %
oscillating cavitation10.1 %
submerged vortice10.1 %
neal e. fine10.1 %
laser induced sonoluminescence10.1 %
diffusion interconnect capacitance10.1 %
performance analysis of cavitating flow in centrifugal pumps using multiphase cfd10.1 %
k.m. kalumuck g.l. chahine j. fluids eng. 122 2000 46510.1 %
calculating added mass10.1 %
korkut e. 1999 . an investigation into the scale effects on cavitation inception and noise in marine propellers10.1 %
song 1998 ”numerical simulation of cavitating flows by single-phase flow approach ” 3rd international symposium on cavitation grenoble france pp. 295-300010.1 %
partial method fcl10.1 %
ways to measure bubbles wit10.1 %
eeg entropy10.1 %
mixed logic circuit layout design in vlsi or and gate10.1 %
circuit structural modelling advantages10.1 %
storage management used in lisp10.1 %
cavitation committee report 198710.1 %
priority queue10.1 %
added mass and damping force10.1 %
nand nand pla10.1 %
plesset chapman 1971 microjet wall10.1 %
iles combined with sgs10.1 %
tullis & govindarajan 197310.1 %
how does a cavitation tunnel work10.1 %
optimum distance between two orifices10.1 %
japikse inducer10.1 %
s.b. pope ten questions concerning the large-eddy simulations of turbulent flows new j. phy6 2004 p. 35.10.1 %
vortex strength fluent10.1 %
tip vortex merge10.1 %
vortex effects on pumps10.1 %
the structure and evolution of cavitation in a transparent scaled-up diesel nozzle10.1 %
what are the advantage of hierarchical design?10.1 %
computer science algorithms merge sort10.1 %
kaplan turbine10.1 %
joint time frequency analysis10.1 %
large scale single hole cavitation nozzle a10.1 %
generalized interface vaporous cavitation model10.1 %
water jet cavitation10.1 %
a data-drive machine architecture suitable for vlsi implementation10.1 %
source term cavitation10.1 %
vortex bursting10.1 %
cavitation sato keiichi10.1 %
turbo pump japan le10.1 %
cavitation due to impact loads10.1 %
comparison of erosion mechanisms in different types of cavitation10.1 %
effect of cavition on centrifugal pumps10.1 %
limit cycles in spacecraft pogo instability10.1 %
kato cavitation10.1 %
distanse of cavitation10.1 %
propulsion for super cavitating motion10.1 %
added mass surge values10.1 %
advantages of top-down and bottom-up design methodologies in digital computer design10.1 %
cavitation bubble formation10.1 %
supercavitation research10.1 %
leading edge cloudy vortex10.1 %
kavitation erosion acoustic10.1 %
how to spot cavities10.1 %
h t kung10.1 %
fluctuation in diatomic molecules10.1 %
machine architecture.edu10.1 %
bubbles in ultrasound picture10.1 %
self timed dynamic pla10.1 %
michael a nederhouser10.1 %
iwano r. submerged vortex10.1 %
f luctuation in diatomic molecules10.1 %
installation of restriction orifice10.1 %
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why are restriction orifice plates used in vertical pipelines10.1 %
vibration caused by orifice plate10.1 %
kugiukgf10.1 %
propeller model 841-b.10.1 %
numerical scheme for vortex flow10.1 %
cavitation tunnel design10.1 %
ric machine digital systems and design10.1 %
welcometocaltechconf-caltechconf10.1 %
analysis of the cavitating10.1 %
super cavitation10.1 %
the benifit of vlsi design10.1 %
restriction orifice cavitation index10.1 %
lagrangian les model10.1 %
recent progress on miles for high reynolds number flows10.1 %
in nozzle flow real size diesel10.1 %
non-critical area of chip10.1 %
optimal unstructured meshing for large eddy simulations10.1 %
produce cavitation with single laser10.1 %
spot cavity10.1 %
experiment on effect of impeller blades centrifugal pump pdf10.1 %
can delale caltech10.1 %
cavitation in orfce flow10.1 %
mechanism of cavitation erosion10.1 %
two phase flow approach in unsteady cavitation modeling10.1 %
orfice rubber for 4 cones10.1 %
large eddy simulation resolved scales10.1 %
uses of cavitation bubble10.1 %
a bubble number density constitutive equation10.1 %
comparing the efficiency of the different methods of the hydrodynamic drag reduction with efficiency of the artificial and vapor supercavitation one can see its advantage10.1 %
cavitation phenomena paper10.1 %
fluent vortex stretching10.1 %
modified isenthalpic model of cavitation10.1 %
deposit numeca10.1 %
surface piercing propeller hydrofoil section10.1 %
pla nand10.1 %
supercavitation research and development kirschner10.1 %
surface piercing propeller kt kq10.1 %
cavitation erosion mechanism10.1 %
what are the computational methods for cavitation use of water molecules10.1 %
experment showing detecting pressure in liquids10.1 %
poincaré-lighthill-kuo method tsien10.1 %
problems of hydrodynamics for high speed motion in water10.1 %
how to make of hydorofoile fin windsurfing10.1 %
scherer j. 1977 . partially submerged and supercavitating propellers. in the 18th attc annapolis10.1 %
cal tech vlsi10.1 %
throttling orifice empirical formula10.1 %
kamiirisa 200110.1 %
pump suction design vortex10.1 %
water bubble in ultra sound10.1 %
can find cavitation in fluent software10.1 %
unsteady blade loading spectra10.1 %
multi-dimensional simulation of cavitating flow using a pdf model for phase change10.1 %
process technology and design layout hierarchy10.1 %
energy of a monatomic liquid radial distribution10.1 %
vlsi design hierarchy10.1 %
restriction orrifice install in the downstream of valve to10.1 %
basic theory of vlsi10.1 %
a simple procedure for prediction of npsh required by inducer10.1 %
inlet flow and vortex relationship10.1 %
cavitation propeller10.1 %
calculation of the added mass and damping forces on supercavitating bodies10.1 %
experimentelle und theoretische untersuchungen über hohlraumbildung kavitation im wasser pdf10.1 %
experimental and numerical studies on a centrifugal pump with 2d-curved blades in cavitating condition10.1 %
restriction oriffice pdf10.1 %
cavitation instabilities in inducers10.1 %
large eddies simulation10.1 %
http //caltechconf.library.caltech.edu/57/1/cav2001_lohrberg_a.pdf10.1 %
rotating cavitation mechanism10.1 %
tplox10.1 %
coefficient drag and coefficient lift at foil correlation10.1 %
orifice experiment10.1 %
2001 integra code 9110.1 %
akihiro numerical analysis of temperatures fields inside10.1 %
static and dynamic cavity pressure10.1 %
journal bearings pdf10.1 %
froude cavitation tunnel newcastle 189510.1 %
added mass added damping10.1 %
kosyna pump10.1 %
sutanu sarkar10.1 %
universities that study cavitation10.1 %
re-entrant jet10.1 %
turbulent flows10.1 %
the bem is a kind of interface tracking method in which only the boundaries of the solution domain are discretized10.1 %
history of cavitation10.1 %
different hierarchical levels used in the development of ics digital systems10.1 %
validation of premixed combustion models using turbulent bunsen10.1 %
micro layout design vlsi10.1 %
les turbulence decay10.1 %
logic design theory10.1 %
endo wear erosion cavitation10.1 %
empirical calculation of added mass10.1 %
implementing vlsi10.1 %
damping in nozzle10.1 %
dynamic test max phase10.1 %
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turbulence in cavitation10.1 %
fluent vortex modeling10.1 %
caltechconf.library.caltech.edu paper0610.1 %
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learning motor primitives with reinforcement learning10.1 %
song numerical simulation cavitating flow single phase flow approach10.1 %
saflin10.1 %
centrifugal pump design reynolds number matching10.1 %
restriction orifice reslts10.1 %
multiphase flow kunz filetype pdf10.1 %
surface piercing propeller10.1 %
possible schemes of cavity closure10.1 %
tip vortex separation10.1 %
cavitation damage10.1 %
how bubbles behave in an acoustic field10.1 %
calculation of pump suction submergence10.1 %
cavitation vortex10.1 %
which way should a restricting orifice be installed in line10.1 %
numerical simulation of leading edge cavitation10.1 %
hydrofoil10.1 %
cavitation bubble detachment from hydrophobic surface10.1 %
foil vortex10.1 %
calculate temperature inside bubble10.1 %
restriction orifice piping10.1 %
southampton ultrasound bubble10.1 %
critical flow through restriction orifice10.1 %
cavitation cloud supersonic10.1 %
“numerical modeling of sheet and tip vortex cavitation with fluent 5 ”10.1 %
area is scale down quadratic10.1 %
lagrangian model in les10.1 %
restriction orifice valve10.1 %
supercavity10.1 %
experiment on performance of kaplan turbine10.1 %
mileusnic proprioceptors10.1 %
cavitation pump experimental visualization10.1 %
investigation of unsteady cavitation phenomena kjeldsen10.1 %
super-cavitation propeller lifting surface software10.1 %
design hierarchies10.1 %
hystory cavitation10.1 %
hsu s. t. namikas d. xiang10.1 %
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added mass damping foil10.1 %
benkenida 1999 bubble10.1 %
cavitation rudder10.1 %
reentrant jet10.1 %
cavitation flow orifice calculator10.1 %
rudder cavitation10.1 %
switch logic theory in vlsi10.1 %
inducer rotating cavitation franc10.1 %
introduction to vlsi paper10.1 %
full text - mason t. j. sonochemistry current uses and future prospect in chemical and industrial processing.pdf10.1 %
v. serebryakov supercavitation filetype pdf10.1 %
.dwg10.1 %
download cavitation from fluent inc10.1 %
kaplan turbine models10.1 %
how to calculate the vortex on submerged10.1 %
need of layout in vlsi design10.1 %
cavitation tunnel10.1 %
david japikse10.1 %
ristricted orifice roles and cavitation10.1 %
advantage of vlsi design10.1 %
design hierachy in vlsi10.1 %
noise on restriction orifice10.1 %
desigh hierarchy in vlsi10.1 %
cavitation rules10.1 %
vortex effect on pumps10.1 %
mechanism of cavitation corrosion10.1 %
cavitation between thin surfaces separating10.1 %
kumano soyama10.1 %
dynamic lagrangian les model10.1 %
pump suction vortex10.1 %
minimum maximum gas bubble size in water10.1 %
design of restriction orifice10.1 %
study of kaplan turbine models10.1 %
added mass damping fourier matlab10.1 %
suction pile added mass calculation10.1 %
cavitation number wartość10.1 %
dynamic les model10.1 %
effect of pipe restriction on water pressure10.1 %
bubbles on a field10.1 %
schnerr sauer10.1 %
restriction orifice diameter pressure10.1 %
supercavitating waterjets10.1 %
les simulations of rt iinstability10.1 %
841-b blades surface piercing geometry10.1 %
restriction orifice installation requirements10.1 %
vortex pump vibration10.1 %
cavitation10.1 %
bubble ring nozzle10.1 %
cavitation shock pipe10.1 %
cavitation kaplan turbines10.1 %
vibration downstream of orifice10.1 %
large- eddy- simulation of 3- dimensional rayleigh- taylor10.1 %
cativation history10.1 %
ultrasound bubble simulation10.1 %
cavitating propeller pressure fluctuations cfd10.1 %
restriction orifice types10.1 %
cavitation 8 m/s hydrofoil10.1 %
large scale integrated circuit ca10.1 %
history of propeller10.1 %



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