Publications of Yuriko (Yamamuro) Renardy 2000-2005


  • 72. B. Khomami, Y. Renardy, K. C. Su, Mary Ann Clarke, 2000, An experimental/theoretical investigation of interfacial stability in superposed pressure-driven channel flow of Newtonian and well-characterized viscoelastic fluids. Part II: Nonlinear stability. J. Non-Newtonian Fluid Mech. 91/1, pp. 85-104.
  • 73. Jie Li, Y. Renardy,M. Renardy, 2000, Numerical simulation of breakup of a viscous drop in simple shear flow with a volume-of-fluid method, Phys. Fluids. Vol. 12(2), 269-282.
  • 74. Jie Li, Y. Renardy, 2000, Numerical study of flows of two immiscible liquids at low Reynolds number, SIAM Review, Vol. 42, No. 3, pp.417 -- 439.
  • 75. Y. Renardy and J. Li, 2000, Numerical simulation of two-fluid flows of viscous immiscible liquids, Proceedings of the IUTAM Symposium on Nonlinear Waves in Multiphase Flow, Eds. H.-C. Chang and M. J. McCready. Kluwer Academic Publishers pp. 117 - 126. Also, comparison with experiments.
  • 76. J. Li and Y. Renardy, Shear-induced rupturing of a viscous drop, Proc. 2000 ASME Fluids Engineering Summer Conference June 11-15, 2000, Boston, MA.
  • 77. Y. Renardy, C. G. Stoltz, 2000, Time-dependent pattern formation for convection in two layers of immiscible liquids, Int. J. Multiphase Flow, 26/11, pp. 1875-1889.
  • 78. Y. Renardy, J. Li, 2001, Merging of drops to form bamboo waves, Int. J. Multiphase Flow, vol. 27/5,pp. 753-763.
  • 79. Y. Renardy, J. Li, 2000, Parallelized simulations of two-fluid dynamics, in `Applications on advanced architecture computers', Greg Astfalk ed., SIAM News, December, pp. 1.
  • 80. M. Renardy and Y. Renardy, 2003, Stability and instability in viscous fluids, 85pp, in Handbook of Mathematical Fluid Dynamics volume 2, eds. Susan Friedlander and Dennis Serre, Elsevier Science. ISBN: 0-444-51287-X
  • 81. M. Renardy, Y. Renardy and J. Li, 2001, Numerical simulation of moving contact line problems using a volume-of-fluid method, J. Comp. Phys. Vol. 171, pp. 243-263.
  • 82. Jie Li and Yuriko Renardy, 2000, Shear-induced rupturing of a viscous drop in a Bingham liquid, J. Non-Newtonian Fluid Mechanics, vol. 95/2-3, pp. 235-251.
  • 83. Yuriko Renardy and Jie Li, 2000, Breakup under shear of a viscous drop in a Bingham liquid, Proceedings of Rheology 2000 -- XIIIth International Congress on Rheology, Cambridge UK, 21-25 August 2000.
  • 84. Jie Li and Yuriko Renardy, 2000, Breakup of a viscous drop under shear, Abstract Book for ICTAM2000, ISSN 0073-5264, No. 950.
  • 85. Yuriko Renardy and Vittorio Cristini, 2001, Effect of inertia on drop breakup under shear, Phys. Fluids 13(1), pp. 7-13.
  • 86. Y. Renardy, V. Cristini, 2001, Scalings for fragments produced from drop breakup in shear flow with inertia. Phys. Fluids., Aug 2001, 13(8), pp. 2161-2164.
  • 87. Y. Renardy, M. Renardy, V. Cristini, 2002, A new volume-of-fluid formulation for surfactants and simulations of drop deformation under shear at a low viscosity ratio , Eur. J. Mech. B/Fluids 21, pp 49-59.
  • 88. Y. Renardy, V. Cristini, J. Li, 2002, Drop fragment distribution under shear with inertia. Int. J. Multiphase Flow 28, 1125-1147.
  • 89. S. Wannaborworn, M. Mackley and Y. Renardy, 2002, Experimental observation and matching numerical simulation for the deformation and breakup of immiscible drops in oscillatory shear. J. Rheol. 46(5), 1279-1293.
  • 90. Y. Renardy, S. Popinet, L. Duchemin, M. Renardy, S. Zaleski, C. Josserand, M. A. Drumright-Clarke, D. Richard, C. Clanet, D. Quere. 2003, movie, Pyramidal and toroidal water drops after impact on a solid surface, J. Fluid Mech. 484 (2003), 69-83.
  • 91. Y. Renardy, M. Renardy, 2002, PROST: a parabolic reconstruction of surface tension for the volume-of-fluid method. J. Comp. Phys. 183(2), pp.400-421.
  • 92. Y. Renardy, MathJBC.mov, MathJAC.mov, Mathdrop.mov, in The North American Mixing Forum's Industrial Mixing Handbook CD-ROM 2001.
  • 93. Y. Renardy, 2003, Direct simulation of drop fragmentation under simple shear, in Interfacial Fluid Dynamics and Transport Processes, Eds. R. Narayanan and D. Schwabe, Lecture Notes in Physics, Springer Verlag Berlin Heidelberg. ISBN 3- 540- 40583 -6. pp.305-325.
  • 94. D. Khismatullin, Y. Renardy and V. Cristini, 2003, Inertia-induced breakup of highly viscous drops subjected to simple shear, Physics of Fluids, Volume 15, Issue 5, pp.1351-1354.
  • 95. M. A. Drumright-Clarke and Y. Renardy, 2004, The effect of insoluble surfactant at dilute concentration on drop breakup under shear with inertia Phys. Fluids 16(1),pp.14-21.
  • 96. Michael and Yuriko Renardy, 2004, Similarity solutions for breakup of jet of power law fluids, Journal of Non-Newtonian Fluid Mechanics 122, pp.303-312.
  • 97. Y. and M. Renardy, T. Chinyoka, D.B. Khismatullin, J. Li, 2004, A viscoelastic VOF-PROST code for the study of drop deformation, ASME Heat Transfer/Fluids Engineering Summer Conference, HT_FED2004 CDROM Track 5, 56114.pdf.
  • 98. T. Chinyoka, Y. Renardy, M. Renardy, D. B. Khismatullin, 2005, Two-dimensional study of drop deformation under simple shear for Oldroyd-B liquids, J. Non-Newtonian Fluid Mech. 130(1) pp 45-56.

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