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110 results on '"Cavitation -- Analysis"'

1. Distress Signals: Even Potted Plants Aren't Shy About Airing Their Complaints

Author

Incorvaia, Darren

Subjects
Strains and stresses -- Influence, Plants, Potted -- Observations, Cavitation -- Analysis, Stress relaxation (Materials) -- Influence, Stress relieving (Materials) -- Influence, General interest, News, opinion and commentary
Abstract

Scientists recorded the popping noises that plants make in response to stresses like dehydration or a cut. Humans have glorious ways of vocalizing discontent: We grumble, grouse, gripe, groan, moan. [...]

Published
2023

2. In thin-wall injection molding: 'Blow (7) molds, bigger electric clamps & faster hybrids: machine makers continue to push the envelope when it comes to high-cavitation, thin-wall tooling

Author

Schut, Jan H.

Subjects
Cavitation -- Analysis, Biodegradable plastics -- Evaluation, Plastics industry -- Industry forecasts -- Customer relations -- Environmental aspects, Business, Chemicals, plastics and rubber industries, Chemistry
Abstract

When it comes to injection molds, cavitation went over the numerical edge years ago. The outer limit is still probably a spectacular 256+256 cavity stack mold built in 2004 by [...]

Published
2017

3. Researchers from Otto-von-Guericke-University Report Details of New Studies and Findings in the Area of Technical Sciences (Transient Simulation of a Squeeze Film Damped Turbocharger Rotor Under Consideration of Fluid Inertia and Cavitation)

Subjects
Cavitation -- Analysis, Turbochargers -- Usage -- Analysis, Rotors -- Usage -- Analysis, Fluids -- Speed, Algorithms -- Usage -- Analysis, Inertia (Mechanics) -- Analysis, Algorithm, Health, Science and technology
Abstract

2022 APR 22 (NewsRx) -- By a News Reporter-Staff News Editor at Science Letter -- Researchers detail new data in Science - Technical Sciences. According to news reporting originating from [...]

Published
2022

5. Prediction of small-scale cavitation in a high speed flow over an open cavity using large-eddy simulation

Author

Shams, Ehsan and Apte, Sourabh V.

Subjects
Prediction (Logic) -- Methods, Cavitation -- Analysis, Eddies -- Research, Engineering and manufacturing industries, Science and technology
Abstract

Large-eddy simulation of flow over an open cavity corresponding to the experimental setup of Liu and Katz (2008, 'Cavitation Phenomena Occurring Due to Interaction of Shear Layer Vortices With the Trailing Corner of a Two-Dimensional Open Cavity,' Phys. Fluids, 20(4), p. 041702)is performed. The filtered, incompressible Navier--Stokes equations are solved using a co-located grid finite-volume solver with the dynamic Smagorinsky model for a subgrid-scale closure. The computational grid consists of around 7 x [10.sup.6] grid points with 3 x [10.sup.6] points clustered around the shear layer, and the boundary layer over the leading edge is resolved. The only input from the experimental data is the mean. velocity profile at the inlet condition. The mean flow is superimposed with turbulent velocity fluctuations generated by solving a forced periodic duct flow at a freestream Reynolds number. The flow statistics, including mean and rms velocity fields and pressure coefficients, are compared with the experimental data to show reasonable agreement. The dynamic interactions between traveling vortices in the shear layer and the trailing edge affect the value and location of the pressure minima. Cavitation inception is investigated using two approaches: (i) a discrete bubble model wherein the bubble dynamics is computed by solving the Rayleigh--Plesset and the bubble motion equations using an adaptive time-stepping procedure and (ii) a scalar transport model for the liquid volume fraction with source and sink terms for phase change. Large-eddy simulation, together with the cavitation models, predicts that inception occurs near the trailing edge similar to that observed in the experiments. The bubble transport model captures the subgrid dynamics of the vapor better, whereas the scalar model captures the large-scale features more accurately. A hybrid approach combining the bubble model with the scalar transport is needed to capture the broad range of scales observed in cavitation. [DOI: 10.1115/1.4002744]

Published
2010

6. Numerical prediction of impact force in cavitating flows

Author

Wang, Hong and Zhu, Baoshan

Subjects
Numerical analysis -- Research, Prediction (Logic) -- Methods, Force and energy -- Measurement, Cavitation -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

A numerical method including a macroscopic cavitation model based on the homogeneous flow theory and a microscopic cavitation model based on the bubble dynamics is proposed for the prediction of the impact force caused by cavitation bubble collapse in cavitating flows. A large eddy simulation solver, which is incorporated with a macroscopic cavitation model, is applied to simulate the unsteady cavitating flows. Based on the simulated flow field, the evolution of the cavitation bubbles is determined by a microscopic cavitation model from the resolution of a Rayleigh--Plesset equation including the effects of the surface tension, the viscosity and compressibility of fluid, the thermal conduction and radiation, the phase transition of water vapor at the interface, and the chemical reactions. The cavitation flow around a hydrofoil is simulated to validate the macroscopic cavitation model. A good quantitative agreement is obtained between the prediction and the experiment. The proposed numerical method is applied to predict the impact force at cavitation bubble collapse on a KT section in cavitating flows. It is found that the shock pressure caused by cavitation bubble collapse is very high. The impact force is predicted qualitatively compared with the experimental data. [DOI: 10.1115/1.4002506] Keywords: cavitating flows, bubble collapse, impact force, large eddy simulation

Published
2010

7. Analysis of thermal effects in a cavitating orifice using Rayleigh equation and experiments

Author

De Giorgi, Maria Grazia, Bello, Daniela, and Ficarella, Antonio

Subjects
Cavitation -- Analysis, Internal combustion engines -- Thermal properties, Internal flow (Fluid dynamics) -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

The cavitation phenomenon interests a wide range of machines, from internal combustion engines to turbines and pumps of all sizes. It affects negatively the hydraulic machines' performance and may cause materials' erosion. The cavitation, in most cases, is a phenomenon that develops at a constant temperature, and only a relatively small amount of heat is required for the formation of a significant volume of vapor, and the flow is assumed isothermal. However, in some cases, such as thermosensible fluids and cryogenic liquid, the heat transfer needed for the vaporization is such that phase change occurs at a temperature lower than the ambient liquid temperature. The focus of this research is the experimental and analytical studies of the cavitation phenomena in internal flows in the presence of thermal effects. Experiments have been done on water and nitrogen cavitating flows in orifices at different operating conditions. Transient growth process of the cloud cavitation induced by flow through the throat is observed using high-speed video images and analyzed by pressure signals. The experiments show different cavitating behaviors at different temperatures and different fluids; this is related to the bubble dynamics inside the flow. So to investigate possible explanations for the influence of fluid temperature and of heat transfer during the phase change, initially, a steady, quasi-one-dimensional model has been implemented to study an internal cavitating flow. The nonlinear dynamics of the bubbles has been modeled by Rayleigh--Plesset equation. In the case of nitrogen, thermal effects in the Rayleigh equation are taken into account by considering the vapor pressure at the actual bubble temperature, which is different from the liquid temperature far from the bubble. A convective approach has been used to estimate the bubble temperature. The quasisteady one-dimensional model can be extensively used to conduct parametric studies useful for fast estimation of the overall performance of any geometric design. For complex geometry, three-dimensional computational fluid dynamic (CFD) codes are necessary. In the present work good agreements have been found between numerical predictions by the CFD FLUENT code, in which a simplified form of the Rayleigh equation taking into account thermal effects has been implemented by external user routines and some experimental observations. [DOI: 10.1115/1.4000367] Keywords: cavitation, bubble growth, mass transfer, multiphase flow, heat transfer, cryogens

Published
2010

8. The analysis of cavitation problems in the axial piston pump

Author

Wang, Shu

Subjects
Cavitation -- Analysis, Reciprocating pumps -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

This paper discusses and analyzes the control volume of a piston bore constrained by the valve plate in axial piston pumps. The vacuum within the piston bore caused by the rise volume needs to be compensated by the flow; otherwise, the low pressure may cause the cavitations and aerations. In the research, the valve plate geometry can be optimized by some analytical limitations to prevent the piston pressure below the vapor pressure. The limitations provide the design guide of the timings and overlap areas between valve plate ports and barrel kidneys to consider the cavitations and aerations. [DOI: 10.1115/1.4002058] Keywords: cavitation, optimization, valve plate, pressure undershoots

Published
2010

9. Modeling the unsteady cavitating low in a cross-flow water turbine

Author

Sansone, E., Pellone, C., and Maitre, T.

Subjects
Cavitation -- Analysis, Hydraulic measurements -- Analysis, Hydraulic turbines -- Analysis, Navier-Stokes equations -- Usage, Engineering and manufacturing industries, Science and technology
Abstract

The noncavitating and cavitating flows over a cross-flow water turbine are simulated by using an unsteady Navier-Stokes formulation. For the cavitating flow case, a homogeneous mixture with a varying density is considered and one additional transport equation is explicitly solved in time for the liquid volume fraction. The instantaneous rate of vapor production and absorption appearing as a source term is governed by a hydrodynamic model based on a simplified bubble dynamic equation. The spatial discretization is achieved by a 2D multiblock technique consisting of fixed and rotating blocks, which were especially adapted for Darrieus geometry. Several test cases corresponding to experiments performed on fixed and rotating blades are selected to compare the numerical results with experimental data. Finally, a calculation of a monobladed cavitating cross-flow turbine is presented. The effect of cavitation on the dynamic stall phenomenon and on the turbine performance is analyzed. In particular, it is shown that cavitation earlier reveals the stall phenomenon on the blades and magnifies the size of the shedding vortex structures in the turbine. [DOI: 10.1115/1.4001966] Keywords: Navier-Stokes, cross-flow water turbine, numerical modeling, unsteady cavitation

Published
2010

10. Suppression of thrust loss for the maximum thrust operation in the electric propulsion ship

Author

Kim, So-Yeon, Yoon, Young-Doo, and Sul, Seung-Ki

Subjects
Cavitation -- Analysis, Electric propulsion -- Analysis, Business, Computers, Electronics, Electronics and electrical industries
Abstract

This paper presents a thrust loss suppression algorithm in an electric propulsion ship. From the viewpoint of the speed controller of the propulsion motor, the thrust loss due to cavitation can be regarded as a disturbance torque. The disturbance torque is estimated by means of a disturbance observer. Considering the estimated disturbance torque, the speed reference of the propeller is modified to suppress the thrust loss. The experimental results that were found in the cavitation tunnel with an electrically driven propulsion system are shown to verify the proposed algorithm. Index Terms--Cavitation, disturbance observer, electric propulsion ship, thrust loss.

Published
2009

11. A real-time measure of cavitation induced tissue disruption by ultrasound imaging backscatter reduction

Author

Hall, Timothy L., Fowlkes, J. Brian, and Cain, Charles A.

Subjects
Cavitation -- Analysis, Ultrasound imaging -- Methods, Backscattering -- Analysis, Business, Electronics, Electronics and electrical industries
Abstract

A feedback method is used to obtain real-time information on the mechanical disruption of tissue through ultrasound cavitation. The analysis has shown that the substantial backscatter reduction might be an efficient feedback mechanism for assessing treatment efficacy in ultrasound surgery by using pulsed ultrasound to create cavitation.

Published
2007

12. Effects of pulsed ultrasound on the adsorption of n-alkyl anionic surfactants at the gas/solution interface of cavitation bubbles

Author

Limei Yang, Sustaric, Joe Z., Rathman, James F., Kuppusamy, Periannan, and Weavers, Linda K.

Subjects
Cavitation -- Analysis, Bubbles -- Chemical properties, Bubbles -- Acoustic properties, Chemicals, plastics and rubber industries
Abstract

The study focuses on the effects of the pulsed, as well as continuous wave (CW) ultrasound on the adsorption of various n-alkyl anionic surfactants at the gas and solution interface of the cavitation bubbles at several different ultrasonic frequencies. The results reveal that the accumulation of the surfactants at the interface depends on both the equilibrium, as well as the dynamic adsorption properties, as the effect is also highly dependant on the frequency.

Published
2007

13. Coherence of photonic crystal vertical-cavity surface-emitting laser arrays

Author

Lehman, Ann C., Raftery, James J., Jr., Carney, Paul S., and Choquette, Kent D.

Subjects
Photonics -- Research, Semiconductor lasers -- Design and construction, Cavitation -- Analysis, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A study was conducted to measure and compare the coherence properties of 2 * 1 arrays of photonic crystal vertical-cavity surface-emitting lasers. The results show that the amplitude and phase of the complex degree of coherence are correlated, such that coherence is maximized near in-phase and out-of-phase coupling conditions, and controllable by independent current injection to each array element.

Published
2007

14. Comparison of computational results obtained from a homogeneous cavitation model with experimental investigations of three inducers

Author

Mejri, Imene, Bakir, Farid, Rey, Robert, and Belamri, Thabet

Subjects
Cavitation -- Analysis, Rayleigh waves -- Usage, Engineering and manufacturing industries, Science and technology
Abstract

The paper presents full 3D numerical simulations and experimental investigations of the cavitating flow through three axial inducers. These inducers are identified by the tip blade angle at the leading edge [[beta].sub.1T]=8, 10, and 13 deg. The numerical and experimental investigations were carried out at the LEMFI laboratory (Laboratoire d'Energetique et de Mecanique de Fluides Interne) of the ENSAM-Paris center (Ecole Nationale Superieure d'Arts et Metiers). A review of the cavitating regime modeling and the cavitation homogeneous model used for this paper's calculations is first presented. The numerical model is based on a combination of the multiphase flow equations with a truncated version of the Rayleigh-Plesset model predicting the complicated growth and collapse processes of bubbles. The mass transfers due to cavitation are source/sink terms in continuity equations of the liquid and vapor phases. The cavitation model also features a solution methodology which implicitly couples the continuity and momentum equations together. The main results are presented for the inducers at a range of flow rates and cavitation numbers: (1) Experimental results concerning: (i) the overall performances: Pressure head coefficient and efficiency versus flow rates; (ii) critical cavitation number (5% and 15% of drop) versus the flow rate; (2) Numerical results concerning: (i) the overall performances; (ii) the numerically investigated water vapor volume fraction distributions and other CFD results, which enable us to explain the cavitating behavior for these inducers; (iii) the location and sizes of the blade cavity and backflow vortex. Finally, the comparisons between experimental and simulated results on the overall performances, cavity sizes and cavity location are discussed. A qualitative agreement between experimental and predicted results was found for two inducers for a range of flow rates. The head breakdown in the simulations started at a different cavitation coefficient than that in the experiment. [DOI: 10.1115/1.2353265] Keywords: cavitation, inducer, CFD, experiment, head-drop

Published
2006

15. Development of cavitation in refrigerant (R-123) flow inside rudimentary microfluidic systems

Author

Mishra, Chandan and Peles, Yoav

Subjects
Refrigerants -- Properties, Cavitation -- Analysis, Flow visualization -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

The existence of hydrodynamic cavitation in the flow of refrigerant (R-123) through micro-Venturis has been viewed in the form of a bubbly cavitating regime. Flow visualization discloses inchoate cavitation bubbles/bubble clouds emerging from the inside of the micro-Venturi throat egress. The bubble density decreases when the flow passes through the diffuser section and further downstream into the microchannel owing to the collapse of the vapor filled bubbles caused by a rise in the static pressure. An increase in the flow rate beyond cavitation inception results in the formation of twin cavities. The elongated cavities emerge from inside the Venturi boundaries and amalgamate further downstream sending out thick and dense vapor/bubble clouds. The discharge is affected by the aggressive cavitation and flow rate choking has been observed at different backpressures. The physical properties of the liquid (wettability, small contact angle, etc.) assist in the inhibition of cavitation by modifying the surface nuclei population. The liquid is able to endure significant tension and remains in a metastable state before sudden rupture. Flow visualization reveals considerable differences between cavitating flow patterns observed in refrigerant (R-123) and water flows through a micro-Venturi system. [1575] Index Terms--Cavitation, flow patterns, microelectromechanical systems (MEMS), microfluidics, micro-Venturi, refrigerant, scale effects.

Published
2006

16. A new strategy to enhance cavitational tissue erosion using a high-intensity, initiating sequence

Author

Zhen Xu, Fowlkes, J. Brian, and Cain, Charles A.

Subjects
Cavitation -- Analysis, Ultrasonics in medicine -- Research, Business, Electronics, Electronics and electrical industries
Abstract

A strategy is proposed to enhance the cavitation-induced tissue erosion, wherein tissue erosion is initiated by a short, high-intensity sequence of pulses and sustained by lower intensity pulses. Results show that the initiating sequence increases the probability of erosion occurrence and the erosion rate with only slight overall increases in propagated energy, and if extinguished and reinitiated, the sustained cavitation period becomes shorter after each initiation.

Published
2006

17. Wavelet transforms in the analysis of mechanical heart valve cavitation

Author

Herbertson, Luke H., Reddy, Varun, Manning, Keefe B., Welz, Joseph P., Fontaine, Arnold A., and Deutsch, Steven

Subjects
Wavelet transforms -- Analysis, Heart valve prosthesis -- Research, Cavitation -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

Cavitation is known to cause blood element damage and may introduce gaseous emboli into the cerebral circulation, increasing the patient's risk of stroke. Discovering methods to reduce the intensity of cavitation induced by mechanical heart valves (MHVs) has long been an area of interest. A novel approach for analyzing MHV cavitation is presented. A wavelet denoising method is explored because currently used analytical techniques fail to suitably unmask the cavitation signal from other valve closing sounds and noise detected with a hydrophone. Wavelet functions are used to denoise the cavitation signal during MHV closure and rebound. The wavelet technique is applied to the signal produced by closure of a 29-mm Medtronic-Hall MHV in degassed water with a gas content of 5 ppm. Valve closing dynamics are investigated under loading conditions of 500, 2500, and 4500 mm Hg/s. The results display a marked improvement in the quantity and quality of information that can be extracted from acoustic cavitation signals using the wavelet technique compared to conventional analytical techniques. Time and frequency data indicate the likelihood and characteristics of cavitation formation under specified conditions. Using this wavelet technique we observe an improved signal-to-noise ratio, an enhanced time-dependent aspect, and the potential to minimize valve closing sounds, which disguise individual cavitation events. The overall goal of this work is to eventually link specific valves with characteristic waveforms or distinct types of cavitation, thus promoting improved valve designs. [DOI: 10.1115/1.2165694] Keywords: mechanical heart valve, cavitation, wavelet

Published
2006

18. Size effects on cavitation instabilities

Author

Niordson, Christian F. and Tvergaard, Viggo

Subjects
Cavitation -- Analysis, Structural analysis (Engineering), Science and technology
Abstract

In metal-ceramic systems the constraint on plastic flow leads to so high stress triaxialities that cavitation instabilities may occur. If the void radius is on the order of magnitude of a characteristic length for the metal, the rate of void growth is reduced, and the possibility of unstable cavity growth is here analyzed for such cases. A finite strain generalization of a higher order strain gradient plasticity theory is applied for a power-law hardening material, and the numerical analyses are carried out for an axisymmetric unit cell containing a spherical void. In the range of high stress triaxiality, where cavitation instabilities are predicted by conventional plasticity theory, such instabilities are also found for the nonlocal theory, but the effects of gradient hardening delay the onset of the instability. Furthermore, in some cases the cavitation stress reaches a maximum and then decays as the void grows to a size well above the characteristic material length. [DOI: 10.1115/1.2074747]

Published
2006

19. Low gain threshold of the cavity mode close to the cutoff wavelength in a three-slab asymmetric conjugated polymer-based waveguide structure

Author

Solomesch, Olga, Feng Li, Mackie, Philip R., Cupertino, Domenico, and Tessler, Nir

Subjects
Optical waveguides -- Design and construction, Cavitation -- Analysis, Optical glass -- Optical properties, Physics
Abstract

The emission mode close to the cutoff wavelength in a three-slab asymmetric conjugated polymer-based waveguide structure is characterized and found largely affected by microcavity effects. A low gain threshold is found using conjugated benzothiadiazole-arylamine copolymer as the gain medium.

Published
2006

20. Viscous fluid displacement by the growing bubble

Author

Kendoush, Abdullah Abbas

Subjects
Viscous flow -- Analysis, Cavitation -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

A method of calculating analytically the forces due to the displacement of liquid caused by the growing bubbles is presented. The derived equations are applied successfully to cases of pool boiling and flow boiling when bubbles are nucleated heterogeneously and expanded from solid surface cavities.

Published
2006

21. Numerical and experimental study on the cavitating flow characteristics of pressurized liquid nitrogen in a horizontal rectangular nozzle

Author

Ishimoto, Jun, Onishi, Masahiro, and Kamijo, Kenjiro

Subjects
Cavitation -- Analysis, Liquid nitrogen -- Properties, Multiphase flow -- Analysis, Numerical analysis -- Usage, Engineering and manufacturing industries
Abstract

The thermodynamic effect on cryogenic cavitating flow characteristics of pressurized liquid nitrogen in a horizontal rectangular nozzle is precisely investigated by numerical analysis based on an unsteady thermal nonequilibrium two-fluid model and by flow visualization measurement. According to the numerical and experimental study, the sufficiently useful results are proposed to realize the further development and high performance of a type of cryogenic two-phase cooling system. It is numerically and experimentally found that the inception of cryogenic cavitation occurs and the cavity grows in the vicinity of the wall surface of the inlet throat section. It is also found that the continuous process and behavior of cavitation inception, cloud cavity growth, and gas phase diffusion behavior with time in pressurized liquid nitrogen are dominated not only by several additional forces in the gas-phase momentum equation, but also by the thermodynamic effect that acts on the cavitation bubbles due to the inherent properties of cryogenic fluid. Especially under conditions of the same temperature and same aspect ratio of the cloud cavity, similar generating behavior of cavitation can be often found in the high Reynolds number region in spite of large cavitation number. Keywords: Cryogenics, Pressurized Liquid Nitrogen, Cavitation, Multiphase Flow, Internal Flow

Published
2005

22. High-speed observation of a cavitating jet in air

Author

Soyama, Hitoshi

Subjects
Cavitation -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

The use of cavitation impact is a practical method for improving the fatigue strength of metals in the same way as shot peening. In the case of peening using cavitation impact, cavitation is produced by a high-speed submerged water jet with cavitation, i.e., a cavitating jet. A cavitating jet in air was successfully generated by injecting a high-speed water jet into a low-speed water jet injected into air using a concentric nozzle. In order to investigate the various appearances of cavitating jets in air, an observation was carried out using high-speed photography and high-speed video recording. In this study, periodical shading of the cavitation cloud was observed and the frequency of the shading was found to be a function of the injection pressure of the low-speed water jet. Unsteadiness of the low-speed water jet, which is related to the periodical shading of the cloud, was also observed. [DOI: 10.1115/1.2060737]

Published
2005

23. Cavitation, shock waves and the invasive nature of sonoelectrochemistry

Author

Birkin, Peter R., Offin, Douglas G., Joseph, Phillip F., and Leighton, Timothy G.

Subjects
Cavitation -- Analysis, Shock waves -- Analysis, Electrochemistry -- Research, Sonoluminescence -- Analysis, Chemicals, plastics and rubber industries
Abstract

The invasive nature of electrodes placed in sound fields and perturbations of the sound field due to the presence of the electrode support are studied, which is found to be negligible under the conditions investigated. It is observed that the shock wave emission from cavity collapse processes significantly alter the results produced.

Published
2005

24. Effect of surfactants on inertial cavitation activity in a pulsed acoustic field

Author

Lee, Judy, Kentish, Sandra, Matula, Thomas J., and Ashokkumar, Muthupandian

Subjects
Surface active agents -- Chemical properties, Gases, Rare -- Chemical properties, Cavitation -- Analysis, Chemicals, plastics and rubber industries
Abstract

Sonoluminescence and passive cavitation detection (PCD) are studied in order to examine the acoustic cavitation field generated at different acoustic pulse lengths in the presence of an anionic surfactant, sodium dodecyl sulfate (SDS). It is observed that as the concentration of surfactant increases, acoustic cavitation activity also increased, while at long pulse lengths acoustic cavity activity is enhanced at low SDS concentrations.

Published
2005

25. Propeller cavitation breakdown analysis

Author

Lindau, Jules W., Boger, David A., Medvitz, Richard B., and Kunz, Robert F.

Subjects
Cavitation -- Analysis, Propellers -- Research, Torque -- Research, Engineering and manufacturing industries, Science and technology
Abstract

A Reynolds-averaged Navier-Stokes computational model of homogeneous multiphase flow is presented. Cavitation driven thrust and torque breakdown over a wide range of advance ratios is modeled for an open propeller. Computational results are presented as a form of validation against water tunnel measured thrust and torque breakdown for the propeller. Successful validation of the computational model is achieved. Additional observations are made with regards to cavity size and shape as well as cavitation breakdown behavior. [DOI: 10.1115/1.1988343]

Published
2005

26. Propeller cavitation study using an unstructured grid base Navier-Stoker solver

Author

Rhee, Shin Hyung, Kawamura, Takafumi, and Li, Huiying

Subjects
Cavitation -- Analysis, Fluid dynamics -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

The cavitating flow around a marine propeller is studied using an unstructured grid based Reynolds-averaged Navier-Stokes computational fluid dynamics method. A cavitation model based on a single-fluid multi-phase flow method is implemented in the Navier-Stokes solver. The proposed computational approach for cavitation is validated against a benchmark database for a cavitating hydrofoil as well as measured data for a cavitating marine propeller. The leading edge and mid-chord cavitation on the hydrofoil is reproduced well and shows good comparison with the well-known experimental data. The predicted noncavitating open water performance of the marine propeller geometry agrees well with the measured one. Finally, the cavitating propeller performance as well as cavitation inception and cavity shape are in good agreement with experimental measurements and observation. The overall results suggest that the present approach is practicable for actual cavitating propeller design procedures without lengthy preprocessing and significant preliminary knowledge of the flow field. [DOI: 10.1115/1.1989370]

Published
2005

27. On the water-entry-induced cavity closure for a wide range of entry speeds

Author

Lee. M.

Subjects
Hydraulic engineering, Cavitation -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

One of the important research areas in the water-entry problem is the cavity dynamics. A theoretical analysis is presented to predict the dynamics of water-entry cavity up to the first cavity closure, which is generated by a solid body entering a semi-infinite free surface of water at a wide range of entry speed. Two types of cavity closure, which are surface closure and the deep closure, depending on the magnitude of ambient atmosphere pressure and entry speed are described by the proposed theory. The time of surface closure at the relatively low-speed entry regime is estimated and compared with published experimental data. Currently no experimental data are available for the high-speed entry case.

Published
2003

28. Numerical analysis of cavitating flow of liquid helium in a converging-diverging nozzle

Author

Ishimoto, Jun and Kamijo, Kenjiro

Subjects
Hydraulic engineering, Cavitation -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

The fundamental characteristics of the two-dimensional cavitating flow of liquid helium through a horizontal converging-diverging nozzle near the lambda point are numerically investigated to realize the further development and high performance of new multiphase superfluid cooling systems. First, the governing equations of the cavitating flow of liquid helium based on the unsteady thermal nonequilibrium multifluid model with generalized curvilinear coordinates system are presented, and several flow characteristics are numerically calculated, taking into account the effect of superfluidity. Based on the numerical results, the two-dimensional structure of the cavitating flow of liquid helium though a horizontal converging-diverging nozzle is shown in detail, and it is also found that the generation of superfluid counterflow against normal fluid flow based on the thermomechanical effect is conspicuous in the large gas phase volume fraction region where the liquid to gas phase change actively occurs. Furthermore, it is clarified that the mechanism of the He I to He II phase transition caused by the temperature decrease is due to the deprivation of latent heat for vaporization from the liquid phase. [DOI: 10.1115/1.1601253]

Published
2003

29. Scaling effect on prediction of cavitation inception in a line vortex flow

Author

Hsiao, Chao-Tsung, Chahine, Georges L., and Liu, Han-Lieh

Subjects
Fluid mechanics -- Analysis, Cavitation -- Analysis, Vortex-motion -- Analysis, Scaling laws (Statistical physics), Engineering and manufacturing industries, Science and technology
Abstract

The current study considers the prediction of tip vortex cavitation inception at a fundamental physics based level. Starting form the observation that cavitation inception detection is based on the 'monitoring' of the interaction between bubble nuclei and the flow field, the bubble dynamics is investigated in detail. A spherical model coupled with a bubble motion equation is used to study numerically the dynamics of a nucleus in an imposed flow field. The code provides bubble size and position versus time as well as the resulting pressure at any selected monitoring position. This model is used to conduct a parametric study. Bubble size and emitted sound versus time are presented for various nuclei sizes and flow field scales in the case of an ideal Rankine vortex to which a longitudinal viscous core size diffusion model is imposed. Based on the results, one can deduce cavitation inception with the help of either an 'optical inception criterion' (maximum bubble size larger than a given value) or an 'acoustical inception criterion' (maximum detected noise higher than a given background value). We use here such criteria and conclude that scaling effects can be inherent to the way in which these criteria are exercised if the bubble dynamics knowledge is not taken into account. [DOI: 10.1115/1.1521956]

Published
2003

30. Eulerian/Lagrangian analysis for the prediction of cavitation inception

Author

Farrell, Kevin J.

Subjects
Fluid mechanics -- Analysis, Cavitation -- Analysis, Lagrangian functions -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

An Eulerian/Lagrangian computational procedure was developed for the prediction of cavitation inception by event rate. The carrier-phase flow field was computed using an Eulerian Reynolds-averaged Navier-Stokes (RANS) solver. The Lagrangian analysis was one-way coupled to the RANS solution, since at inception, the contributions of mass, momentum, and energy of the microbubbles to the carrier flow are negligible. The trajectories were computed using Newton's second law with models for various forces acting on the bubble. The growth was modeled using the Rayleigh-Plesset equation. The important effect of turbulence was included by adding a random velocity component to the mean flow velocity and by reducing the local static pressure. Simulation results for the Schiebe body indicate agreement with experimentally observed trends and a significant event rate at cavitation indices above visual inception. [DOI: 10.1115/1.1522411]

Published
2003

31. Evaluation of the turbulence model influence on the numerical simulations of unsteady cavitation

Author

Coutier-Delgosha, O., Fortes-Patella, R., and Reboud, J.L.

Subjects
Fluid mechanics -- Analysis, Cavitation -- Analysis, Turbulence -- Influence, Engineering and manufacturing industries, Science and technology
Abstract

Unsteady cavitation in a Venturi-type section was simulated by two-dimensional computations of viscous, compressible, and turbulent cavitating flows. The numerical model used an implicit finite volume scheme (based on the SIMPLE algorithm) to solve Reynolds-averaged Navier-Stokes equations, associated with a barotropic vapor/liquid state law that strongly links the density variations to the pressure evolution. To simulate turbulence effects on cavitating flows, four different models were implemented (standard k-[epsilon] RNG; modified k-[epsilon] RNG; k-[omega] with and without compressibility effects), and numerical results obtained were compared to experimental ones. The standard models k-[epsilon] RNG and k-[omega] without compressibility effects lead to a poor description of the self-oscillation behavior of the cavitating flow. To improve numerical simulations by taking into account the influence of the compressibility of the two-phase medium on turbulence, two other models were implemented in the numerical code: a modified k-[epsilon] model and the k-[omega] model including compressibility effects. Results obtained concerning void ratio, velocity fields, and cavitation unsteady behavior were found in good agreement with experimental ones. The role of the compressibility effects on turbulent two-phase flow modeling was analyzed, and it seemed to be of primary importance in numerical simulations. [DOI: 10.1115/1.1524584]

Published
2003

32. Effect of gap size on tip leakage cavitation inception, associated noise and flow structure

Author

Gopalan, Shridhar, Katz, Joseph, and Liu, Han L.

Subjects
Cavitation -- Analysis, Hydrofoil boats -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

This paper focuses on the onset of tip-leakage cavitation on a fixed hydrofoil. The objectives are to investigate the effect of gap size on the flow structure, conditions of cavitation inception, the associated bubble dynamics and cavitation noise. The same hydrofoil with three tip gap sizes of 12%, 28%, and 52% of the maximum tip thickness are studied. Controlled cavitation tests are performed after de-aerating the water in the tunnel and using electrolysis to generate cavitation nuclei. The experiments consist of simultaneously detecting cavitation inception using a 2000 fps digital camera (visual) and two accelerometers ('acoustic') mounted on the test section windows. Good agreement between these methods is achieved when the visual observations are performed carefully. To obtain the time-dependent noise spectra, portions of the signal containing cavitation noise are analyzed using Hilbert-Huang transforms. Rates of cavitation events as a function of the cavitation index (sigma) for the three gap sizes are also measured. The cavitation inception index decreases with increasing gap sizes. The experiments demonstrate that high-amplitude noise spikes are generated when the bubbles are distorted and 'shredded'--broken to several bubbles following their growth in the vortex core. Mere changes to bubble size and shape caused significantly lower noise. High-resolution particle image velocimetry (PIV) with a vector spacing of 180 [micro]m is used to measure the flow, especially to capture the slender tip vortices where cavitation inception is observed. The instantaneous realizations are analyzed to obtain probability density functions of the circulation of the leakage vortex. The circulation decreases with increasing gap sizes and minimum pressure coefficients in the cores of these vortices are estimated using a Rankine model. The diameter of the vortex core varied between 540-720 [micro]m. These coefficients show a very good agreement with the measured cavitation inception indices. [DOI: 10. 1115/1.1514496]

Published
2002

33. Multidimensional diagnostics of turbine cavitation

Author

Bajic, Branko

Subjects
Turbines -- Models, Cavitation -- Analysis, Hydrodynamics -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

A novel technique for vibro-acoustical diagnostics of turbine cavitation is introduced and its use demonstrated on a Francis turbine. The technique enables identification of different cavitation mechanisms functioning in a turbine and delivers detailed turbine cavitation characteristics, for each of the mechanisms or for the total cavitation. The characteristics specify the contribution of every critical turbine part to the cavitation intensity. Typical diagnostic results: (1) enable optimization of turbine operation with respect to cavitation erosion; (2) show how a turbine's cavitation behavior can be improved; and (3) form the basis for setting up a high-sensitivity, reliable cavitation monitoring system. [DOI: 10.1115/1.1511162]

Published
2002

34. Time frequency characteristics of the vibroacoustic signal of hydrodynamic cavitation

Author

Wen, Yumei and Henry, Manus

Subjects
Hydrodynamics, Cavitation -- Analysis, Oscillation -- Analysis, Science and technology
Abstract

A theoretical analysis and experimental results are presented of the time-frequency characteristics of hydrodynamic cavitation signals. Because of the limitation of the frequency bandwidth of the data acquisition system and the random nature of cavity collapses, the signal consists of transient burst waveforms. The acoustic pulses from collapses in close time proximity mix together and form transient oscillatory bursts. The local oscillation frequency of a burst is related to either the time duration between burst collapses or the cut-off frequency of the system. These results enable the identification and detection of individual cavitation events by the time-frequency characteristics in the vibroacoustic signal. [DOI: 10.1115/1.1500337]

Published
2002

35. Correlation between acoustic cavitation noise, bubble population, and sonochemistry

Author

Segebarth, Nicolas, Eulaerts, Olivier, Reisse, Jacques, Crum, Lawrence, and Matula, Thomas J.

Subjects
Sonoluminescence -- Research, Chemistry, Physical and theoretical -- Research, Cavitation -- Analysis, Chemicals, plastics and rubber industries
Abstract

The variations of the total peroxide yield, together with the variations of the cavitation noise spectrum and with the variations of the temperature inside the collapsing bubbles when adding small amounts of an anionic surfactant in water is examined. Because of its known effects on the cavitation field, sodium dodecyl sulfate (SDS) is analyzed which shows that it modifies the coalescence phenomena.

Published
2002

36. Buoyancy-driven flow transitions in deep cavities heated from below

Author

Xia, Chunmei and Murthy, Jayanthi Y.

Subjects
Heat -- Convection, Cavitation -- Analysis, Chaos theory -- Models, Rayleigh number -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

Finite volume simulations of buoyancy-driven flows in deep cavities suggest that the transition from the periodic to the chaotic regime is very rapid. Data indicate that the chaotic regimes mix substantially in contained flows in deep cavities with Rayleigh numbers as seen in manufacturing processes.

Published
2002

37. Cathodic electrochemical detection of sonochemical radical products

Author

Birkin, Peter R., Power, John F., Leighton, Timothy G., and Vincotte, Aurore M.L.

Subjects
Electrochemical analysis -- Methods, Radicals (Chemistry) -- Analysis, Cavitation -- Analysis, Chemistry
Abstract

This paper reports on an electrochemical technique for the detection of oxidizing radical species, produced as the result of cavitation induced by ultrasound. A study of two example reactions is reported: the Weissler reaction and the Fricke reaction. In both cases, redox-active materials trap oxidative radicals. Electrochemical detection within a flow cell system is then used to sense redox-active products of the reactions between a chosen trapping agent and radicals produced within an ultrasonically irradiated aqueous solution. A demonstration of the sensitivity of electrochemical detection of radical products is presented. An equivalent dose of the ultrasonic reactor is reported.

Published
2002

39. FLIP BUCKET WITHOUT AND WITH DEFLECTORS

Author

Juon, Roman and Hager, Willi H.

Subjects
Energy dissipation -- Measurement, Coriolis force -- Analysis, Shock waves -- Diffraction, Cavitation -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

Flip buckets are commonly used to discharge flow away from a hydraulic structure into a plunge pool to dissipate energy. In the past, flip buckets have often been designed in accordance with site-related hydraulic model studies. Consequently, limited generalized design guidelines are available. The present study considers flip buckets either in a prismatic rectangular channel or extended by a lateral deflector resulting in a curved jet trajectory. The main features of flip buckets are investigated, including scale effects in hydraulic models, bucket pressure distribution, and nappe trajectories with and without the presence of deflectors. An analysis is presented mainly involving the approach Froude number, the so-called bend number, and the bucket takeoff angle. It is demonstrated that the near field of a bucket-deflected jet follows the conventional parabola of a mass point, provided that the takeoff angle is correctly accounted for and that the flow is scaled using the Froude similarity law. Furthermore, shock-wave features for a flip bucket with a deflector are specified, and the governing choking relations are derived based on an experimental approach.

Published
2000

40. Numerical Properties of the Discrete Gas Cavity Model for Transients

Author

Liou, Jim C.P.

Subjects
Vapor-liquid equilibrium -- Analysis, Cavitation -- Analysis, Numerical analysis -- Models, Engineering and manufacturing industries, Science and technology
Abstract

Wylie's discrete gas cavity model offers a simple way to simulate transients in liquids with a small amount of free gas, and to model vaporous and gaseous cavitations. It uses a constant and gas-free wave speed to avoid interpolations and a weighting factor to control numerical oscillations. The model has an intriguing ability to capture features associated with pressure-dependent wave speeds. This paper describes a yon Neumann analysis on this model shows why the need for the weighting factor and how to select it, and explains why the model exhibits variable wave speed features.

Published
2000

41. Nucleation and Bubble Dynamics In Vortical Flows

Author

Arndt, Roger E.A. and Maines, Brant H.

Subjects
Hydrodynamics -- Research, Cavitation -- Analysis, Vortex-motion -- Analysis, Nucleation -- Analysis, Bubbles -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

The cavitation inception process in trailing vortices has been studied for several years. One of the important findings from these studies is the strong sensitivity to nuclei size and number as well as significant viscous effects. In order to understand the nucleation and bubble growth process in more detail a photographic study was conducted with the aim of developing high quality visualizations of the dynamical growth of bubbles.

Published
2000

42. On the Stability of Parallel Bubbly Cavitating Flows

Author

d'Agostino, Luca and Burzagli, Fabio

Subjects
Hydrodynamics -- Research, Cavitation -- Analysis, Bubbles -- Analysis, Spatial systems -- Analysis, Condensers (Vapors and gases) -- Evaluation, Engineering and manufacturing industries, Science and technology
Abstract

This paper illustrates the effects of the dynamics of bubbles with arbitrary vapor-gas contents on the inviscid and viscous stability of two-dimensional parallel bubbly flows of low void fraction. The linear perturbation equations derived for the stability analysis include the effects of bubble compressibility, inertia, and energy dissipation due to the viscosity of the liquid and the transfer of heat and mass as a consequence of compression/ expansion of the noncondensable gas and evaporation/condensation of the vapor contained in the bubbles. Numerical solution of the spatial stability problem for two-dimensional inviscid shear layers and Blasius boundary layers confirms that the presence of the dispersed phase is generally in favor of stability. Significant deviations from the classical results for compressible and incompressible single phase fluids are observed, especially when the occurrence of large compliant and/or resonant oscillations of the bubbles greatly enhances their dynamic coupling with the perturbation field. More importantly, the present analysis points out some major differences in the stability of parallel flows with noncondensable gas bubbles with respect to cavitating flows containing bubbles with a dominant content of vapor. Unconditional stability is predicted in the travelling bubble cavitation limit for low pressures and high vapor mass fraction of the bubble contents. Results are shown to illustrate these effects for some representative flow configurations and conditions.

Published
2000

43. Spectral Characteristics of Sheet/Cloud Cavitation

Author

Kjeldsen, Morten, Arndt, Roger E.A., and Effertz, Mark

Subjects
Hydrodynamics -- Research, Cavitation -- Analysis, Hydrofoil boats -- Evaluation, Cloud physics -- Research, Water tunnels -- Evaluation, Engineering and manufacturing industries, Science and technology
Abstract

Cavitation observations were made using a highly instrumented 2D NACA 0015 hydrofoil mounted in a specially designed water tunnel. It was found that the dynamic characteristics of the cavitation vary considerably with various combinations of angle of attack and cavitation number, (sigma). At higher angles of attack, two types of flow unsteadiness are observed. At low (sigma), a low frequency shedding of cloud cavitation results in a strong oscillation in lift and (Delta)p at a Strouhal number, based on chord length, fc/U, of about 0.15. This frequency is relatively insensitive to changes in (sigma). As (sigma) is raised, the harmonic content of the oscillations changes significantly. A spectral peak at much higher frequency is noted that increases in frequency almost linearly with cavitation number. Similar behavior is noted in the lift fluctuations.

Published
2000

44. The Use of Cavitating Jets to Oxidize Organic Compounds in Water

Author

Kalumuck, K.M. and Chahine, G.L.

Subjects
Hydrodynamics -- Research, Cavitation -- Analysis, Sound-waves -- Usage, Oxidation-reduction reaction -- Analysis, Organic compounds -- Testing, Engineering and manufacturing industries, Science and technology
Abstract

Exposure to ultrasonic acoustic waves can greatly enhance various chemical reactions. Ultrasonic acoustic irradiation of organic compounds in aqueous solution results in oxidation of these compounds. The mechanism producing this behavior is the inducement of the growth and collapse of cavitation bubbles driven by the high frequency acoustic pressure fluctuations. Cavitation bubble collapse produces extremely high local pressures and temperatures. Such conditions are believed to produce hydroxyl radicals which are strong oxidizing agents. We have applied hydrodynamic cavitation to contaminated water by the use of submerged cavitating liquid jets to trigger widespread cavitation and induce oxidation in the bulk solution. Experiments were conducted in recirculating flow loops using a variety of cavitating jet configurations and operating conditions with dilute aqueous solutions of p-nitrophenol (PNP) of known concentration. Temperature, pH, ambient and jet pressures, and flow rates were controlled and systematically varied. Samples of the liquid were taken and the concentration of PNP measured with a spectrophotometer. Experiments were conducted in parallel with an ultrasonic horn for comparison. Submerged cavitating liquid jets were found to generate a two order of magnitude increase in energy efficiency compared to the ultrasonic means.

Published
2000

45. Low-diffusion flux-splitting methods for real fluid flows with phase transitions

Author

Edwards, Jack R., Franklin, Randall K., and Liou, Meng-Sing

Subjects
Fluid dynamics -- Analysis, Diffusion -- Analysis, Rockets (Aeronautics) -- Nozzles, Cavitation -- Analysis, Aerospace and defense industries, Business
Abstract

Research reveals that flux-splitting schemes effectively capture multiphase flow features, cavitation zones, and vapor-liquid condensation shocks. Data point out that the method is also efficient for capturing incompressible liquid and compressible vapor responses.

Published
2000

46. Effect of elastic accommodation on diffusion-controlled cavity growth in metals

Author

Mohan, R., Zhang, J., and Brust, F.W.

Subjects
Metals -- Creep, Metals, Effect of temperature on -- Analysis, Cavitation -- Analysis, Grain boundaries -- Analysis, Stress analysis (Engineering) -- Research, Science and technology
Abstract

Results point out that void growth rates can be several fold higher than the steady state growth rates during the elastic transient period. This is significant considering that in metallic components, under cyclic loading conditions with short hold times, elasticity effects become important.

Published
2000

47. ASPECTS OF CAVITATION DAMAGE IN SEISMIC BEARINGS

Author

Dorfmann, Al and Burtscher, Stefan L.

Subjects
Seismological research -- Analysis, Cavitation -- Analysis, Materials -- Dynamic testing, Bearings (Machinery) -- Design and construction, Engineering and manufacturing industries, Science and technology
Abstract

Hyperelastic material models are derived from strain energy potentials expressed in terms of strain invariant or principal stretches. For a (nearly) incompressible material, the strain energy density depends on the first and second strain invariant; the third invariant describing a change in volume is equal to one. If the material is not highly confined it may be satisfactory to select an incompressible approach. However, for seismic beatings a highly confined situation does exist, and the compressibility must be included to obtain realistic results. Further, cavitation and associated stiffness reduction in bearings are shown based on experimental observations. In fact, it was noticed that a hydrostatic tensile stress in rubber causes internal rupture and a significant reduction in the bulk modulus. Thus, a hyperelastic formulation based on a variable bulk modulus does suggest a simple approach to realistically represent the mechanics of cavitation in rubbery solids.

Published
2000

48. INSTABILITY OF THIN PIPES ENCASED IN OVAL RIGID CAVITY

Author

Omara, Abdel-Aziz M., Guice, Leslie K., Straughan, W. Thomas, and Akl, Fred

Subjects
Mechanical engineering -- Research, Pipe lines -- Analysis, Cavitation -- Analysis, Science and technology
Abstract

A new model for predicting the buckling pressure of thin circular pipes encased in rigid oval host pipes is presented. This paper also includes experimental work that has been conducted to verify the new model. The results of the experimental work are compared with the proposed model and other analytical models. Conclusions drawn out of this comparison study show that the proposed model provides a good agreement with experimental results.

Published
2000

49. A Theoretical Analysis of Alternate Blade Cavitation in Inducers

Author

Horiguchi, Hironori, Watanabe, Satoshi, Tsujimoto, Yoshinobu, and Aoki, Masanori

Subjects
Cavitation -- Analysis, Blades -- Analysis, Cascades (Fluid dynamics) -- Analysis, Engineering and manufacturing industries, Science and technology
Abstract

An analysis of alternate blade cavitation on flat plate cascade is made using a singularity method based on a closed cavity model. In the steady flow analysis, it was found that two kinds of steady cavitation patterns exist. One is equal length cavitation in which the cavity lengths of all blades are the same. The other is alternate blade cavitation in which the cavity length changes alternately from blade to blade. Although the present model fails to predict the range of cavitation number where alternate blade cavitation occurs, it predicts alternate blade cavitation fairly well in terms of cavity length. A parameter study shows that the development of alternate blade cavitation is quite different depending on the solidity of cascade. The stability of equal length and alternate blade cavitation is then examined allowing the cavity length freely to change. It was found that alternate blade cavitation is stable for the cascades with larger solidity and unstable for the cascades with smaller solidity. The equal length cavitation is stable in both cases only in the region of cavitation number larger than that where the alternate blade cavitation solution separates from the equal length cavitation.

Published
2000

50. Measurement of the Bubbly Flow Beneath Partial Attached Cavities Using Electrical Impedance Probes

Author

George, Darin L., Iyer, Claudia O., and Ceccio, Steven L.

Subjects
Impedance (Electricity) -- Testing, Cavitation -- Analysis, Flow visualization -- Analysis, Vapors -- Testing, Engineering and manufacturing industries, Science and technology
Abstract

Surface electrical impedance probes are used to examine the bubbly flow beneath and in the closure region of partial attached cavities. A series of electrodes were mounted flush to the surface of a cavitating hydrofoil to detect the presence of liquid or vapor through changes in the impedance of the local fluid medium. Signals from the electrical probes were used to determine the near-surface gas-phase velocity and the shedding frequency of the gas phase. The impedance technique is shown to have the potential to measure advection velocities within a partial cavity, and the frequency content of the signal is used to determine the dynamics of the vapor shedding process.

Published
2000

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