Joseph, Daniel D. - Department of Aerospace Engineering and Mechanics, University of Minnesota

• J. Fluid Mech. (2004), vol. 511, pp. 201215. c 2004 Cambridge University Press DOI: 10.1017/S0022112004009541 Printed in the United Kingdom
• Stability of a liquid jet into incompressible gases and liquids T. Funada a
• POTENTIAL FLOWS OF VISCOUS AND VISCOELASTIC Daniel D. Joseph, Toshio Funada and Jing Wang
• faraday-dec27.tex 1 Irrotational Faraday Waves on a Viscous Fluid
• J. Fluid Mech.(2002), vol. 000, pp.1-24. 2002 Cambridge University Press DOI: 10.1017/S0022112001007145 Printed in the United Kingdom
• Figure 3: Surfaces separating at high speed, , showing FECO fringes (top), schematic side-view (middle), and optical microscope view (bottom) of the surfaces. Ho-
• Stability of a liquid jet into incompressible gases and liquids: Part 2. Effects of the irrotational
• Rising bubbles 13.1 The dissipation approximation and viscous potential flow
• J. Non-Newtonian Fluid Mech. 129 (2005) 106116 Purely irrotational theories of the effects of viscosity and viscoelasticity
• J. Fluid Mech. (2007), vol. 587, pp. 163172. c 2007 Cambridge University Press doi:10.1017/S0022112007007549 Printed in the United Kingdom
• Purely irrotational theories for the viscous effects on the oscillations of drops and
• Journal of Turbulence Vol. xx, No. x, 2009, 124
• Phys. Fluids. Two spheres in a free stream of a second-order fluid
• J. Non-Newtonian Fluid Mech. 111 (2003) 87105 Viscoelastic potential flow analysis of capillary instability
• The motion of a spherical gas bubble in viscous potential D. D. Joseph and J. Wang
• Purely irrotational theories of stability of viscoelastic fluids
• J. Fluid Mech. (2003), vol. 479, pp. 191197. c 2003 Cambridge University Press DOI: 10.1017/S0022112002003634 Printed in the United Kingdom
• Modeling Rayleigh-Taylor Instability of a Sedimenting Suspension Arising in Direct Numerical Simulation
• Purely irrotational theories of the effect of the viscosity on the decay of free gravity waves
• Under consideration for publication in J. Fluid Mech. 1 Two-Dimensional and Axisymmetric Viscous
• Accepted for publication in J. Fluid Mech. 1 Viscous potential flow analysis of Kelvin-Helmholtz
• Cavitation in an Orifice Flow , W. A. Sirignano
• J. Fluid Mech. (2001), vol. 445, pp. 263283. c 2001 Cambridge University Press DOI: 10.1017/S0022112001005572 Printed in the United Kingdom
• High temperature interfacial tension measurements of PA6/PP interfaces compatibilized with copolymers
• How Bubbly Mixtures Foam and Foam Control Using a Fluidized Bed
• Breakup of a liquid drop suddenly exposed to a high-speed D.D. Joseph*, J. Belanger, G.S. Beavers
• Present address: Department of Mechanical Engineering, Northwestern University, Evanston, IL 60208 Lift-off of a single particle in
• Power law and composite power law friction factor correlations for laminar and turbulent gasliquid
• Exceptional properties of semi-dilute solutions of nanoparticle laden polymers in water
• SummaryExperiments_June2002.doc 1 Summary for Experiments
• Viscous potential flow analysis of capillary instability with heat and mass transfer
• mathieu-rk-apr30.tex 1 Solution of Mathieu's equation by Runge-Kutta
• joseph-short-communication1991.tex 1 Short communication: Bernoulli equation and the
• Reviews of Modern Physics ADDENDUM TO THE PAPER
• 1 DDJ/1999/papers/RT-Instability-pt1 Rayleigh-Taylor Instability
• J. Fluid Mech. (2003), vol. 480, pp. 119128. c 2003 Cambridge University Press DOI: 10.1017/S0022112003003793 Printed in the United Kingdom
• J. Fluid Mech. (2004), vol. 516, pp. 335348. c 2004 Cambridge University Press DOI: 10.1017/S0022112004000758 Printed in the United Kingdom
• Understanding foams & foaming D.D. Joseph
• Foam Control using a Fluidized Bed of Hydrophobic Particles by Clara Mata*
• Modeling Foamy Oil Flow in Porous Media D.D. Joseph, A.M. Kamp, R. Bai
• 1 Intevep/2002/papers/FoamyOil-Pt2/nucleation_5-03.doc Modeling Foamy Oil Flow in Porous Media II
• Self-lubricated transport of aqueous foams in horizontal conduits
• Viscous and Viscoelastic Potential Flow 1 Viscous and Viscoelastic Potential Flow
• J. Fluid Mech. (2002), vol. 453, pp. 109132. c 2002 Cambridge University Press DOI: 10.1017/S0022112001006802 Printed in the United Kingdom
• Capillary/C-InstabSh03-27.tex 1 Viscous Potential Flow Analysis
• J. Fluid Mech. (2003), vol. 488, pp. 213223. c 2003 Cambridge University Press DOI: 10.1017/S0022112003004968 Printed in the United Kingdom
• J. Fluid Mech. (2004), vol. 505, pp. 365377. c 2004 Cambridge University Press DOI: 10.1017/S0022112004008602 Printed in the United Kingdom
• Ellipsoidal model of the rise of a Taylor bubble in a round tube T. Funada a
• J. Fluid Mech. accepted 1 Pressure corrections for potential flow
• Purely irrotational theories of the effect of the viscosity on the decay of free gravity waves
• Potential flow of a second-order fluid over a tri-axial ellipsoid , T. Funada2
• Irrotational viscous pressure and the dissipation method D.D. Joseph and J.C. Padrino. February 13, 2006 / prfpaper-corrected.tex / printed February 14,
• Viscous effects of the irrotational flow outside boundary layers on rigid solids
• Cavitation in an orifice flow S. Dabiri and W. A. Sirignano
• potential-aug21.tex 1 Potential flow of a cylindrical vortex sheet in a viscous fluid
• Disintegration of moving liquid sheets using viscous potential analysis
• UNCORRECTED PHYSD: 30744 Model 5G pp. 111 (col. fig: nil)
• Numerical Study of Particle Migration in Tube and Plane Poiseuille Flows
• J. Fluid Mech. (2005), vol. 540, pp. 109131. c 2005 Cambridge University Press doi:10.1017/S0022112005005677 Printed in the United Kingdom
• Composite power law holdup correlations in horizontal pipes F. Garcia a,*, R. Garcia b
• Lift forces on a cylindrical particle in plane Poiseuille flow of shear thinning fluids
• J. Fluid Mech. (2003), vol. 494, pp. 379398. c 2003 Cambridge University Press DOI: 10.1017/S0022112003006165 Printed in the United Kingdom
• Distributed Lagrange Multiplier Method for Particulate Flows with Collisions
• Fluidization of 1204 spheres: simulation and experiment
• Last updated April 22, 2001. Power law correlations for sediment transport in pressure
• Printed Tuesday, February 27, 2001 1 DDJ/2001/papers/LiftCorrelations/correlaLift.doc Power Law Correlations for Lift from
• International Conference on Multiphase Flow, New Orleans, LA, May 27 June 1, 2001, submitted Lift Correlations from
• CAV2001 Fourth International Symposium on Cavitation Cavitation and the state of stress
• Cavitation and the state of stress in a flowing liquid Daniel D. Joseph
• Under consideration for publication in J. Fluid Mech. 1 Two-Dimensional and Axisymmetric Viscous
• Printed 08/15/02 4:02 PM 1 DDJ/2002/papers/MotionParticles/capillarity9.doc Particle motion in a liquid film rimming the inside
• J. Fluid Mech. (2001), vol. 434, pp. 2337. Printed in the United Kingdom c 2001 Cambridge University Press
• cylinder-motion-2-aug13.tex 1 Irrotational motions of bubbles under the action of acceleration of
• Viscous contributions to the pressure for potential flow analysis of capillary instability of two viscous fluids
• Figure 3: Surfaces separating at high speed, ? c , showing FECO fringes (top),
• CAV2001 Fourth International Symposium on Cavitation Cavitation and the state of stress
• A correlation for the lift-off of many particles in plane Poiseuille flows of Newtonian fluids
• file-list-june29.tex 1 List of files
• Potential flow of viscous fluids: Historical notes Daniel D. Joseph *
• Cavitation and the state of stress in a flowing liquid Daniel D. Joseph
• sher-jul262008-iecr.tex 1 Viscous irrotational theories and the force on an expanding bubbleA cell-model analysis
• Joseph and Liao 1994 1 Potential flows of viscous and viscoelastic fluids
• Daniel D. Joseph Regents' Professor
• ADSORPTION OF INTAN-100 AT THE BITUMEN/AQUEOUS SOLUTION INTERFACE STUDIED BY SPINNING DROP
• Drag and Moment in Viscous Potential Flow D. D. Joseph, T. Y. Liao and H. H. Hu
• Bi-power law correlations for sediment transport in pressure driven channel flows
• Shear instability of a planar liquid jet immersed in a high speed gas stream by Juan C. Padrino (Advisor: D.D. Joseph)
• Lift-off of a single particle in an Oldroyd-B fluid T. Ko, N. A. Patankar* and D. D. Joseph
• jet-compressible-gas-july25.tex 1 Liquid jet in a high Mach number air stream