LOGIN TO YOUR ACCOUNT

Username
Password
Remember Me
Or use your Academic/Social account:

CREATE AN ACCOUNT

Or use your Academic/Social account:

Congratulations!

You have just completed your registration at OpenAire.

Before you can login to the site, you will need to activate your account. An e-mail will be sent to you with the proper instructions.

Important!

Please note that this site is currently undergoing Beta testing.
Any new content you create is not guaranteed to be present to the final version of the site upon release.

Thank you for your patience,
OpenAire Dev Team.

Close This Message

CREATE AN ACCOUNT

Name:
Username:
Password:
Verify Password:
E-mail:
Verify E-mail:
*All Fields Are Required.
Please Verify You Are Human:
fbtwitterlinkedinvimeoflicker grey 14rssslideshare1
Giannadakis, E.; Gavaises, M.; Arcoumanis, C. (2008)
Publisher: Cambridge University Press
Languages: English
Types: Article
Subjects: TA
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • Afzal, H., Arcoumanis, C., Gavaises, M. & Kampanis, N. 1999 Internal flow in diesel injector nozzles: modelling and experiments. IMechE Paper S492/S2/99.
    • Ahmadi, M. & Sellens, R. W. 1993 A simplified maximum-entropy-based drop size distribution. Atom. Sprays 3, 291-310.
    • Alajbegovic, A. 1999 Three-dimensional cavitation calculations in nozzles. In Proc. Second Annu. Meeting Inst. Multifluid Sci. Technol., Santa Barbara, CA (ed. T. G. Theofanus), pp. III. 97-III.103. Center of Risk Studies and Safety, University of California, Santa Barbara.
    • Alajbegovic, A., Grogger, H. A. & Philipp, H. 1999a Calculation of cavitation in nozzles using the two-fluid model. In Proc. 7th Annu. Conf. Comp. Fluid Dyn. Soc. Canada, Halifax, NS, Canada (ed. J. Militzer), pp. 7.3-7.8. CFD Society of Canada.
    • Alajbegovic, A., Grogger, H. A. & Philipp, H. 1999b Calculation of transient cavitation in nozzle using the two-fluid model. In Proc. 12th Annu. Conf. Liquid Atom. Spray Systems, Indianapolis, IN.
    • Andrews, M. J. & O'rourke, P. J. 1996 The multiphase particle-in-cell (MP-PIC) method for dense particulate flows. Intl J. Multiphase Flow 22, 379-402.
    • Apfel, R. E. 1970 The role of impurities in cavitation-threshold determination. J. Acoust. Soc. Am. 48, 1179-1186.
    • Arcoumanis, C., Badami, M., Flora, H. & Gavaises, M. 2000 Cavitation in real-size multi-hole diesel injector nozzles. SAE Trans. J. Engines 109-3, 1485-1500.
    • Arcoumanis, C., Flora, H., Gavaises, M. & Kampanis, N. 1999 Investigation of cavitation in a vertical multi-hole injector. SAE Paper 1999-01-0524.
    • Arcoumanis, C., Gavaises, M., Nouri, J. M., Abdul-Wahab, E. & Horrocks, R. W. 1998 Analysis of the flow in the nozzle of a vertical multi hole diesel engine injector. SAE Trans. J. Engines 107-3, 1245-1259.
    • Arcoumanis, C., Nouri, J. M. & Andrews, R. J. 1992 Application of refractive index matching to a diesel nozzle internal flow. In Proc. Sixth Intl Symp. Appl. Laser Techniques Fluid Mech., Lisbon, Spain (ed. R. J. Adrian et al.), pp. 10.4.1-10.4.7. Springer.
    • Arndt, R. E. A. & Maines, B. H. 2000 Nucleation and bubble dynamics in vortical flows. J. Fluids Engng: Trans. ASME 122, 488-493.
    • Atchley, A. A. & Prosperetti, A. 1989 The crevice model of bubble nucleation. J. Acoust. Soc. Am. 86, 1065-1084.
    • Avva, R. K., Singhal, A. & Gibson, D. H. 1995 An enthalpy based model of cavitation. In Cavitation and Multiphase Flow Forum (ed. J. Katz & Y. Matsumoto), ASME FED, pp. 63-70.
    • Badock, C., Wirth, R., Fath, A. & Leipertz, A. 1999 Investigation of cavitation in real size diesel injection nozzles. Intl J. Heat Fluid Flow 20, 538-544.
    • Badock, C., Wirth, R. & Tropea, C. 1999 The Influence of hydro grinding on cavitation inside a diesel injection nozzle and primary breakup under unsteady pressure conditions. In Proc. ILASS-EUROPE, Toulouse, France (ed. G. Lavergne).
    • Batchelor, G. K. 1953 The Theory of Homogeneous Turbulence. Cambridge University Press.
    • Bauer, D. 2005 Planung und Durchfu¨hrung von Experimenten zur Validierung eines CFD-Codes fu¨r Kavitationsstro¨mungen. Diplomarbeit. Technische Universita¨t Bergakademie Freiberg, Germany.
    • Bergwerk, W. 1959 Flow pattern in diesel nozzle spray holes. Proc. Inst. Mech. Engrs 173, 655- 660.
    • Blessing, M., Ko¨nig, G., Kru¨ger, C., Michels, U. & Schwarz, V. 2003 Analysis of flow and cavitation phenomena in diesel injection nozzles and its effect on spray and mixture formation. SAE Paper 2003-01-1358.
    • Brennen, C. E. 1995 Cavitation and Bubble Dynamics. Oxford University Press.
    • Briggs, L. J. 1950 Limiting negative pressure of water. J. Appl. Phys. 21, 721-722.
    • Bunnell, R. A. & Heister, S. D. 2000 Three-dimensional unsteady simulation of cavitating flows in injector passages. J. Fluids Engng: Trans. ASME 122, 791-797.
    • Bunnell, R. A., Heister, S. D., Yen, C. & Collicott, S. H. 1999 Cavitating injector flows: validation of numerical models and simulations of pressure atomizers. Atom. Sprays 9, 445- 465.
    • Chaves, H., Knapp, M., Kubitzek, A. & Obermeier, F. 1995 Experimental study of cavitation in the nozzle hole of diesel injectors using transparent nozzles. SAE Paper 950290.
    • Chen, Y. L. & Heister, S. D. 1996a Modeling cavitating flows in diesel injectors. Atom. Sprays 6, 709-726.
    • Chen, Y. L. & Heister, S. D. 1996b Modeling hydrodynamic nonequilibrium in cavitating flows. J. Fluids Engng: Trans. ASME 118, 172-178.
    • Chesters, A. K. & Hofman, G. 1982 Bubble coalescence in pure liquids. Appl. Sci. Res. 38, 353-361.
    • Delannoy, Y. & Kueny, J. L. 1990 Two phase flow approach in unsteady cavitation modelling. In Cavitation and Multiphase Flow Forum, ASME FED, pp. 153-158.
    • Dukowicz, J. K. 1980 A particle-fluid numerical model for liquid sprays. J. Comput. Phys. 33, 229.
    • Dumont, N., Simonin, O. & Habchi, C. 2001 Numerical simulation of cavitating flows in diesel injectors by a homogeneous equilibrium modeling approach. In Proc. CAV2001, Fourth Intl Symp. Cavitation, Pasadena, CA (ed. C. E. Brennen). California Institute of Technology.
    • Farrell, K. J. 2003 Eulerian/Lagrangian analysis for the prediction of cavitation inception. J. Fluids Enng: Trans. ASME 125, 46-52.
    • Feng, Z. G. & Michaelides, E. E. 2001 Drag coefficients of viscous spheres at intermediate and high Reynolds numbers. J. Fluids Engng: Trans. ASME 123, 841-849.
    • Fox, F. E. & Herzfeld, K. F. 1954 Gas bubbles with organic skin as cavitation nuclei. J. Acoust. Soc. Am. 26, 984-989.
    • Gavaises, M. & Giannadakis, E. 2004 Modelling of cavitation in large-scale diesel injector nozzles. In Proc. 20th Annu Conf. Liquid Atom. Spray Systems (ILASS-Europe), Nottingham, UK, 6-8 September (ed. B. J. Azzopardi), pp. 159-164. School of Chemical, Environmental and Mining Enginnering, University of Nottingham.
    • Gavaises, M., Papoulias, D., Andriotis, A., Giannadakis, E. & Theodorakakos, A. 2007 Link between cavitation development and erosion damage in Diesel fuel injector nozzles. SAE Paper 2007-01-0246.
    • Giannadakis, E. 2005 Modelling of cavitation in automotive fuel injector nozzles. PhD thesis, Imperial College, University of London, London, UK.
    • Giannadakis, E., Gavaises, M., Roth, H. & Arcoumanis, C. 2004 Cavitation modelling in singlehole diesel injector based on Eulerian-Lagrangian approach. In Proc. THIESEL Intl Conf. Thermo- Fluid Dyn. Processes Diesel Engines, Valencia, Spain, pp. 47-60. La Editorial de la UPV.
    • Giannadakis, E., Papoulias, D., Gavaises, M., Arcoumanis, C., Soteriou, C. & Tang, W. 2007 Evaluation of the predictive capability of diesel nozzle cavitation models. SAE Paper 2007- 01-0245.
    • Gindroz, B. & Billet, M. L. 1998 Influence of the nuclei on the cavitation inception for different types of cavitation on ship propellers. J. Fluids Engng: Trans. ASME 120, 171- 178.
    • Goney, K. H. & Corradini, M. L. 2000 Isolated effects of ambient pressure, nozzle cavitation and hole inlet geometry on diesel injection spray characteristics. SAE Paper 2000-01-2043.
    • Grogger, H. A. & Alajbegovic, A. 1998 Calculation of the cavitating flow in venturi geometries using two fluid model. In Proc. FEDSM'98 - 1998 ASME Fluid Engng Div. Summer Meeting, Washington, DC.
    • Harvey, E. N., Barnes, D. K., Mcelroy, W. D., Whiteley, A. H., Pease, D. C. & Cooper, K. W. 1944 Bubble formation in animals. I. Physical factors. J. Cell. Comp. Physiol. 24, 1-22.
    • He, L. & Ruiz, F. 1995 Effect of cavitation on flow and turbulence in plain orifices for high-speed atomization. Atom. Sprays 5, 569-584.
    • Henry, M. E. & Collicott, S. H. 2000 Visualization of internal flow in a cavitating slot orifice. Atom. Sprays 10, 545-563.
    • Hinze, J. O. 1975 Turbulence, p. 309. McGraw-Hill.
    • Hsiao, C.-T., Chahine, G. L. & Liu, H. L. 2000 Scaling effect on bubble dynamics in a tip vortex flow: prediction of cavitation inception and noise. Rep. 98007-1, Dynaflow Inc, Jessup, MD, USA.
    • Hsiao, C.-T., Chahine, G. L. & Liu, H. L. 2003 Scaling effect on prediction of cavitation inception in a line vortex flow. J. Fluids Engng: Trans. ASME 125, 53-60.
    • Johnson, V. E. & Hsieh, T. 1966 The influence of the trajectories of gas nuclei on cavitation inception. In Proc. Sixth Symp. Naval Hydrodyn., pp. 163-179. Office of Naval Research, Washington, DC.
    • Kamp, A. M., Chesters, A. K., Colin, C. & Fabre, J. 2001 Bubble coalescence in turbulent flows: a mechanistic model for turbulence-induced coalescence applied to microgravity bubbly pipe flow. Intl J. Multiphase Flow 27, 1363-1396.
    • Kinjo, T. & Matsumoto, M. 1998 Cavitation processes and negative pressure. Fluid Phase Equil. 144, 343-350.
    • Kodama, Y., Take, N., Tamiya, S. & Kato, H. 1981 The effect of nuclei on the inception of bubble and sheet cavitation on axisymmetric-bodies. J. Fluids Engng: Trans. ASME 103, 557-563.
    • Ko¨nig, G. & Blessing, M. 2000 Database of cavitation effects in nozzles for model verification: geometry and pressure effects on cavitating nozzle flow. DaimlerChrysler AG.
    • Kubota, A., Kato, H. & Yamaguchi, H. 1992 A new modelling of cavitating flows: a numerical study of unsteady cavitation on a hydrofoil section. J. Fluid Mech. 240, 59-96.
    • Laı´n, S., Bro¨der, D., Sommerfeld, M. & Go¨z, M. F. 2002 Modelling hydrodynamics and turbulence in a bubble column using the Euler-Lagrange procedure. Intl J. Multiphase Flow 28, 1381- 1407.
    • Liu, Z. H. & Brennen, C. E. 1998 Cavitation nuclei population and event rates. J. Fluids Engng: Trans. ASME 120, 728-737.
    • Marcer, R., Le Cottier, P., Chaves, H., Argueyrolles, B., Habchi, C. & Barbeau, B. 2000 A validated numerical simulation of diesel injector flow using a VOF method. SAE Paper 2000-01-2932.
    • Marcer, R. & Legouez, J. M. 2001 Simulation of unsteady cavitating flows in diesel injector with an improved VOF method. In Proc. ILASS-EUROPE, Zurich, Switzerland (ed. B. Ineichen). I.C. Engines and Combustion Laboratory, ETH, Zurich.
    • Martı´nez-Baza´ n, C., Montan˜ e´s, J. L. & Lasheras, J. C. 1999a On the breakup of an air bubble injected into a fully developed turbulent flow. Part 1. Breakup frequency. J. Fluid Mech. 401, 157-182.
    • Martı´nez-Baza´ n, C., Montan˜ e´s, J. L. & Lasheras, J. C. 1999b On the breakup of an air bubble injected into a fully developed turbulent flow. Part 2. Size PDF of the resulting daughter bubbles. J. Fluid Mech. 401, 183-207.
    • Maxey, M. R. & Riley, J. J. 1983 Equation of motion for a small rigid sphere in a nonuniform flow. Phys. Fluids 26, 883-889.
    • Meyer, R. S., Billet, M. L. & Holl, J. W. 1992 Freestream nuclei and traveling-bubble cavitation. J. Fluids Engng: Trans. ASME 114, 672-679.
    • Michaelides, E. E. 1997 Review: the transient equation of motion for particles, bubbles, and droplets. J. Fluids Engng: Trans. ASME 119, 233-247.
    • Michaelides, E. E. 2003 Hydrodynamic force and heat/mass transfer from particles, bubbles, and drops: the Freeman scholar lecture. J. Fluids Engng: Trans. ASME 125, 209-238.
    • Milton, S. G. & Arakeri, V. H. 1992 Studies on cavitation inception process in separated flows. J. Fluids Engng: Trans. ASME 114, 85-92.
    • Mørch, K. A. 2000 Cavitation nuclei and bubble formation: a dynamic liquid-solid interface problem. J. Fluids Engng: Trans. ASME 122, 494-498.
    • Moss, W. C., Levantin, J. L. & Szeri, A. J. 2000 A new damping mechanism in strongly collapsing bubbles. Proc. R. Soc. Lond. A 456, 2983-2994.
    • Nurick, W. H. 1976 Orifice cavitation and its effects on spray mixing. J. Fluids Engng 98, 681- 687.
    • Papoulias, D., Giannadakis, E., Mitroglou, N., Gavaises, M. & Theodorakakos, A. 2007 Cavitation in fuel injection systems for spray guided direct injection gasoline engines. SAE Paper 2007-01-1418.
    • Plesset, M. S. & Prosperetti, A. 1977 Bubble dynamics and cavitation. Annu. Rev. Fluid Mech. 9, 145-185.
    • Press, W. H., Teukolsky, S. A., Vetterling, W. T. & Flannery, B. P. 1992 Numerical Recipes in Fortran 77. Cambridge University Press.
    • Press, W. H., Teukolsky, S. A., Vetterling, W. T. & Flannery, B. P. 1996 Numerical Recipes in Fortran 90. Cambridge University Press.
    • Rood, E. P. 1991 Mechanisms of cavitation inception: review. J. Fluids Engng: Trans. ASME 113, 163-175.
    • Roth, H. 2004 Experimental and computational investigation of cavitation in diesel injector nozzles. PhD thesis, Imperial College, University of London, London, UK.
    • Roth, H., Gavaises, M. & Arcoumanis, C. 2002 Cavitation initiation, its development and link with flow turbulence in diesel injector nozzles. SAE Trans. J. Engines 111-3, 561- 580.
    • Roth, H., Giannadakis, E., Gavaises, M., Arcoumanis, C., Omae, K., Sakata, I., Nakamura, M. & Yanagihara, H. 2005 Effect of multi-injection strategy on cavitation development in diesel injector nozzle holes. SAE Trans. J. Engines 114-3, 1029-1045.
    • Rusche, H. & Issa, R. 2000 The effect of voidage on the drag force on particles, droplets and bubbles in dispersed two-phase flow. In Proc. 2nd Japanese-European Two-Phase Flow Gp Meeting, Tsukuba, Japan.
    • Sauer, J. & Schnerr, G. H. 2000 Unsteady cavitating flow: a new cavitation model based on a modified front capturing method and bubble dynamics. In Proc. FEDSM'00 - 2000 ASME Fluid Engng Div. Summer Meeting, Boston, MA.
    • Schmidt, D. P. & Corradini, M. L. 2001 The internal flow of diesel fuel injector nozzles: a review. Intl J. Engine Res. 2, 1-22.
    • Schmidt, D. P., Rutland, C. J. & Corradini, M. L. 1997 A numerical study of cavitating flow through various nozzle shapes. SAE Paper 971597.
    • Schmidt, D. P., Rutland, C. J. & Corradini, M. L. 1999 A fully compressible, two-dimensional model of small, high- speed, cavitating nozzles. Atom. Sprays 9, 255-276.
    • Schnerr, G. H. & Sauer, J. 2001 Physical and numerical modeling of unsteady cavitation dynamics. In Proc. ICMF 2001: Fourth Intl Conf. Multiphase Flows, New Orleans, LA.
    • Shyy, W., Thakur, S., Ouyang, H., Liu, J. & Blosch, E. 1997 Computational Techniques for Complex Transport Phenomena. Cambridge University Press.
    • Singhal, A. K., Athavale, M. M., Li, H. Y. & Jiang, Y. 2001 Mathematical basis and validation of the full cavitation model. In Proc. FEDSM'01 - 2001 ASME Fluid Engng Div. Summer Meeting, New Orleans, LA.
    • Singhal, A. K., Athavale, M. M., Li, H. Y. & Jiang, Y. 2002 Mathematical basis and validation of the full cavitation model. J. Fluids Engng: Trans. ASME 124, 617-624.
    • Soteriou, C., Andrews, R. J. & Smith, M. 1995 Direct injection diesel sprays and the effect of cavitation and hydraulic flip on atomization. SAE Paper 950080.
    • Soteriou, C., Smith, M. & Andrews, R. J. 1998 Diesel injection: laser light sheet illumination of the development of cavitation in orifices. IMechE Paper C529/018/98.
    • Sou, A., Masaki, Y. & Nanajima, T. 2001 Numerical simulation of transient cavitating flow in a spray nozzle. In Proc. ILASS-Asia, Busan, Korea.
    • Sou, A., Nitta, S. & Nakajima, T. 2002 Bubble tracking simulation of cavitating flow in an atomization nozzle. In Proc. FEDSM'02 - 2002 ASME Fluid Engng Div. Summer Meeting, Montreal, QC, Canada.
    • Sridhar, G. & Katz, J. 1995 Drag and lift forces on microscopic bubbles entrained by a vortex. Phys. Fluids 7, 389-399.
    • Tamaki, N., Shimizu, M. & Hiroyasu, H. 2001 Enhancement of the atomization of a liquid jet by cavitation in a nozzle hole. Atom. Sprays 11, 125-137.
    • Temperley, H. N. V. & Trevena, D. H. 1994 Metastability of the liquid-vapor transition and related effects. J. Stat. Phys. 77, 501-508.
    • Tamura, Y., Sugiyama, K. & Matsumoto, Y. 2001 Cavitating flow simulations based on the bubble dynamics. In Proc. CAV2001: Fourth International Symposium on Cavitation, Pasadena, CA, (ed. C. E. Brennen). California Institute of Technology.
    • Trevena, D. H. 1987 Cavitation and Tension in Liquids. Adam Hilger.
    • Vaidyanathan, R., Senocak, I., Wu, J. Y. & Shyy, W. 2003 Sensitivity evaluation of a transportbased turbulent cavitation model. J. Fluids Engng: Trans. ASME 125, 447-458.
    • Vinogradova, O. I., Bunkin, N. F., Churaev, N. V., Kiseleva, O. A., Lobeyev, A. V. & Ninham, B. W. 1995 Submicrocavity structure of water between hydrophobic and hydrophilic walls as revealed by optical cavitation. J. Colloid Interface Sci. 173, 443-447.
    • Wallis, G. B. 1969 One-Dimensional Two-phase Flow, p. 143. McGraw-Hill.
    • Walther, J., Schaller, J. K., Heinold, O., Kunzi, U. & Mu¨ller, D. 2001 Data base of structure and dynamic behavior of cavitation. Robert Bosch GmbH.
    • Walther, J., Schaller, J. K., Wirth, R. & Tropea, C. 2000 Investigation of internal flow in transparent diesel injection nozzles using fluorescent particle image velocimetry (FPIV). In Proc. ICLASS, Pasadena, CA (ed. N. Chigier), pp. 300-307.
    • van Wijngaarden, L. 1976 Hydrodynamic interaction between bubbles in a liquid. J. Fluid Mech. 77, 27-44.
    • Xiao, C. & Heyes, D. M. 2002 Cavitation in stretched liquids. Proc. R. Soc. Lond. A 458, 889-910.
    • Yakhot, V., Orszag, S. A., Thangam, S., Gatski, T. B. & Speziale, C. G. 1992 Development of turbulence models for shear flows by a double expansion technique. Phys. Fluids A 4, 1510-1520.
    • Yuan, W., Sauer, J. & Schnerr, G. H. 2000 Modeling and computation of unsteady cavitation flows in injection nozzles. In 1st Intl Colloq. Microhydrodynamics, Paris, France.
    • Yuan, W. & Schnerr, G. H. 2001 Cavitation in injection nozzles: effect of injection pressure fluctuations. In Proc. CAV2001: Fourth Intl Symp. Cavitation, Pasadena, CA (ed. C. E. Brennen). California Institute of Technology.
  • Inferred research data

    The results below are discovered through our pilot algorithms. Let us know how we are doing!

    Title Trust
    40
    40%
  • No similar publications.

Share - Bookmark

Cite this article