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Journal of Flow Control, Measurement & Visualization

Journal of Flow Control, Measurement & Visualization

Journal of Flow Control, Measurement & Visualization

ISSN Print: 2329-3322
ISSN Online: 2329-3330
www.scirp.org/journal/jfcmv
E-mail: jfcmv@scirp.org
"High Speed Observation of Periodic Cavity Behavior in a Convergent-Divergent Nozzle for Cavitating Water Jet"
written by Keiichi Sato, Yuta Taguchi, Shota Hayashi,
published by Journal of Flow Control, Measurement & Visualization, Vol.1 No.3, 2013
has been cited by the following article(s):
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[1] Analysis of the effects of nozzle geometry on the cavitation water jet flow field using orthogonal decomposition
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[2] On unsteady cavitation flow of a high-speed submerged water jet based on data-driven modal decomposition
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[3] Experimental and numerical simulations to examine the mechanism of nozzle geometry affecting cavitation water jets
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[4] Cavitation cloud of waterjet under double excitation
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[5] Characterization of cavitation zone in cavitating venturi flows: Challenges and road ahead
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[6] Experimental study and numerical sizing model for cavitation zone characterisation in cavitating venturis
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[7] Experimental characterization of cavitation zone and cavity oscillation mechanism transitions in planar cavitating venturis
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[8] Experimental investigation of two-phase flow evolution in a high-speed submerged water jet with air ventilation
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[9] Experimental Investigation of Viscoelastic Cavitating and Turbulent Channel Flows Subjected to Different Pressure Gradients
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[10] Numerical investigation about the unsteady behavior of a free submerged cavitation jet using the SBES approach
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[11] Acoustic modes of self-excited cavitating waterjets on rock erosion
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[12] Experimental investigation on characteristics of venturi cavitating flow and Rhodamine B degradation in methanol solution
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[13] Quantitative Evaluation of Submerged Cavitation Jet Performance Based on Image Processing Method
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[14] Erosion experiments of shale using a cavitation jet
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[15] Thermodynamic effects at Venturi cavitation in different liquids
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[16] Automatic Edge Detection Applied to Cavitating Flow Analysis: Cavitation Cloud Dynamics and Properties Measured through Detected Image Regions
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[17] Hydrodynamic cavitation reduction in semidilute turbulent polymer solution flows
Journal of Fluid Mechanics, 2022
[18] Aggressive ability improvement of self-resonating cavitating jets with double-hole nozzle
Journal of Petroleum Science and Engineering, 2022
[19] Effect of Nozzle Outlet Shape on Cavitation Behavior of Submerged High-Pressure Jet
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[20] Experimental study on unsteady characteristics of the transient cavitation flow
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[21] Experimental Investigation of Cavity Dynamics in Convergent-Divergent Nozzle in Sheet Mode
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[22] Erosion Mechanism of a Cavitating Jet on Groove Roughness
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[23] Influence of thickness of hydrophobic polytetrafluoroethylene (PTFE) coatings on cavitation erosion of hydro-machinery steel SS410
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[24] 噴流形クラウドキャビテーションのストローハル数特性およびクラウド様相 (スロート長さと拡大部を有するノズル)
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[25] Effect of fuel pressure, feed rate, and spray distance on cavitation erosion of Rodojet sprayed Al2O3+ 50% TiO2 coated AISI410 steel
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[26] Cavitation patterns in high-pressure homogenization nozzles with cylindrical orifices: Influence of mixing stream in Simultaneous Homogenization and Mixing
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[27] Determination of the shedding frequency of cavitation cloud in a submerged cavitation jet based on high-speed photography images
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[28] Experimental Study on the Unsteady Natural Cloud Cavities: Influence of Cavitation Number on Cavity Evolution and Pressure Pulsations
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[29] Downhole Emitter for Creating a Field of Elastic Vibrations in a Geological Environment
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[30] Erosion Characteristics and the Corresponding Self-Resonating Oscillations of Cavitating Jet on Oblique Surfaces
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[31] Effects of nozzle lip geometry on the cavitation erosion characteristics of self-excited cavitating waterjet
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[32] Design and Development of High-Velocity Submerged Water Jet Cavitation Erosion Test Rig
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[33] Experimental Study on the Unsteady Characteristics and the Impact Performance of a High-Pressure Submerged Cavitation Jet
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[34] Enhancing the Aggressive Intensity of a Cavitating Jet by Introducing Water Flow Holes and a Long Guide Pipe
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[35] Cavitating jet: A review
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[36] Erosion Mechanism of a Cavitating Jet on Groove Roughness. Fluids 2021, 6, 6
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[37] Experimental Characterization and Modeling of Gaseous Cavitation of Dodecane in a Converging-Diverging Nozzle
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[38] Influence of Cavitation and Mixing Conditions on Oil Droplet Size in Simultaneous Homogenization and Mixing (SHM)
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[39] Скважинный излучатель для создания поля упругих колебаний в геологической среде
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[40] 噴流クラウドキャビテーションのリエントラント挙動 (特に崩壊圧力波の効果)
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[41] Development of a Pressure Stable Inline Droplet Generator with Live Droplet Size Measurement
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[42] 空化水喷丸中空泡云动态演变及靶距优化研究
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[43] Study on dynamic evolution of cavitation clouds and optimization of standoff distance in water cavitation peening
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[44] Dynamic characteristics of the cavitation clouds of submerged Helmholtz self-sustained oscillation jets from high-speed photography.
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[45] 噴流クラウドキャビテーションのリエントラント挙動
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[46] Dynamic characteristics of the cavitation clouds of submerged Helmholtz self-sustained oscillation jets from high-speed photography
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[47] Submerged Waterjet
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[48] One-dimensional/three-dimensional analysis of transient cavitating flow in a venturi tube with special emphasis on cavitation excited pressure fluctuation prediction
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[49] Dynamic behaviour of cavitation clouds: visualization and statistical analysis
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[50] Pressure fluctuation and surface morphology induced by the high-pressure submerged waterjet confined in a square duct
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[51] Experimental investigation on the cavitation performance in a venturi reactor with special emphasis on the choking flow
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[52] Effect of taper, pressure and temperature on cavitation extent and dynamics in micro-channels
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[53] Thermodynamic effects on Venturi cavitation characteristics
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[54] 110th Anniversary: Comparison of Cavitation Devices Based on Linear and Swirling Flows: Hydrodynamic Characteristics
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[55] ノズル出口近傍の通水穴によるキャビテーション噴流の加工能力向上
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[56] キャビテーションクラウドの非定常挙動に関するノズル拡大部の影響
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[57] Effect of taper on cavitation in a 2D flow channel
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[58] Joint experiments of cavitation jet: High-speed visualization and erosion test
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[59] Simultaneous observation of cavitation collapse and shock wave formation in cavitating jet
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[60] Inhibition of cloud cavitation on a flat hydrofoil through the placement of an obstacle
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[61] キャビテーティングノズルにおける非定常クラウドキャビテーション挙動
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[62] Investigation on effects of back pressure on submerged jet flow from short cylindrical orifice filled with diesel fuel
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[63] Modeling hydrodynamic cavitation in venturi: influence of venturi configuration on inception and extent of cavitation
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[64] Experimental observation of the erosion pattern, pits, and shockwave formation in a cavitating jet
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[65] Analysis of Co-Flow Water Cavitation Peening of Al7075-T651 Alloy Using High-Speed Imaging and Surface Pitting Tests
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[66] Numerical simulation of unsteady cavitating jet by a compressible bubbly mixture flow method
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[67] キャビテーション噴流におけるピット形成と壊食メカニズムに関する研究
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[68] Effect of Ventilation on the Velocity Decay of Cavitating Submerged Water Jet
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[69] 淹没空化射流空泡云动态变化规律研究
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[70] Flow structures and cavitation in submerged waterjet at high jet pressure
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[71] Periodic Behavior of Cavitation Cloud Shedding in Submerged Water Jets Issuing from a Sheathed Pipe Nozzle
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[72] Experimental investigation of cavitating structures in the near wake of a cylinder
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[73] Numerical investigation of periodic cavitation shedding in a Venturi
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[74] Time-resolved observations of pit formation and cloud behavior in cavitating jet
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[75] Numerical analysis of cavitation cloud shedding in a submerged water jet
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[76] Numerical approach to reproduce instabilities of partial cavitation in a Venturi 8° geometry
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[77] Visualization Observation of Cavitation Cloud Shedding in a Submerged Water Jet
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[78] Numerical Simulation of Unsteady Cavitation in a High-speed Water Jet
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[79] Simultaneous shadowgraph imaging and acceleration pulse measurement of cavitating jet
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[80] 柴油喷孔内云空化的试验和大涡模拟
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[81] Numerical approach to reproduce instabilities of partial cavitation in a venturi 8◦ geometry
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[82] Effects of Diffuser Length on Cloud Cavitation in an Axisymmetrical Convergent-Divergent Nozzle
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[83] Modélisation et simulation d'écoulements turbulents cavitants avec un modèle de transport de taux de vide
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[84] High-pressure emulsion formation in cylindrical coaxial orifices: Influence of cavitation induced pattern on oil drop size
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[85] Confirmation on the effectiveness of rectangle-shaped flapper in reducing cavitation in flapper–nozzle pilot valve
Energy Conversion and Management, 2015
[86] Monitoring Cavitation Regime from Pressure and Optical Sensors: Comparing Methods using Wavelet Decomposition for Signal Processing
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[87] Shadowgraph Imaging of Cavitating Jet
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[88] Numerical analysis of high-speed Lithium jet flow under vacuum conditions
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[89] Re-entrant jet mechanism for periodic cavitation shedding in a cylindrical orifice
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[90] Unsteady Behavior of Cavitating Waterjet in an Axisymmetric Convergent-Divergent Nozzle: High Speed Observation and Image Analysis Based on Frame Difference Method
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[91] 0515 キャビテーティングウォータジェットのノズル拡大部における詳細挙動
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