Applied Math Lab Fluid and Particle Publications and Preprints

Papers Submitted
Papers Accepted
Papers Published
  1. S. Lee, J. Wong, and A. L. Bertozzi, Equilibrium theory of bidensity particle-laden flow on an incline, Mathematical Modelling and Numerical Simulation of Oil Pollution Problems, The Reacting Atmosphere Volume 2, pp. 85-97, Mattias Ehrhardt, Editor, 2015.
  2. L. Wang, A. Mavromoustaki, A. L. Bertozzi, G. Urdaneta, and K. Huang, Rarefaction-singular shock dynamics for conserved volume gravity driven particle-laden thin film, Physics of Fluids, 27, 033301, 2015.
  3. A. Mavromoustaki and A. L. Bertozzi, Hyperbolic systems of conservation laws in gravity-driven, particle-laden thin-film flows, J. Eng. Math., March 2014, preprint version .
  4. Sungyon Lee, Yvonne Stokes, and Andrea L. Bertozzi, Behavior of a particle-laden flow in a spiral channel, Physics of Fluids 26, 043302, 2014, preprint version.
  5. S. Lee, A. Mavromoustaki, G. Urdaneta, K. Huang, and A. L. Bertozzi, Experimental investigation of bidensity slurries on an incline, Granular Matter, 16(2), April 2014, pp. 269-274, preprint version.
  6. Li Wang and Andrea L. Bertozzi, Shock solutions for high concentration particle-laden thin films, SIAM J. Appl. Math., 74(2), pp. 322-344, 2014.
  7. Sungyon Lee, Yvonne Stokes, and Andrea L. Bertozzi, A model for particle laden flow in a spiral concentrator, Proceedings of International Conference on Theoretical and Applied Mechanics, 2012 in Beijing.
  8. N. Murisic, B. Pausader, D. Peschka, and A. L. Bertozzi, Dynamics of particle settling and resuspension in viscous liquid films , J. Fl. Mech., vol. 717, pp. 203-231, 2013.
  9. Matthew R. Mata and Andrea L. Bertozzi, A Numerical Scheme for Particle-Laden Thin Film Flow in two dimensions J. Comp. Phys., Vol. 230, No. 16, 10 July 2011, Pages 6334-6353, preprint version.
  10. N. Murisic, J. Ho, V. Hu, P. Latterman, T. Koch, K. Lin, M. Mata, and A. Bertozzi, Particle-laden viscous thin-film flows on an incline: experiments compared with an equilibrium theory based on shear-induced migration and particle settling, Physica D, 240(20), pp. 1661-1673, 2011, Special Issue: Fluid Dynamics: From Theory to Experiment Edited by Andrew Gilbert, Isaac Klapper, Jean-Luc Thiffeault and Jane Wang , preprint version.
  11. Natalie Grunewald, Rachel Levy, Matthew Mata, Thomas Ward, and Andrea L. Bertozzi, Self-similarity in particle laden flows at constant volume, J. Eng. Math., DOI 10.1007/s10665-009-9345-4, 2009, preprint version.
  12. Thomas Ward, Chi Wey, Robert Glidden, A. E. Hosoi, and A. L. Bertozzi, 2009 Experimental study of gravitation effects in the flow of a particle-laden thin film on an inclined plane, Physics of Fluids, 21, 083305, 2009.
  13. Benjamin Cook, Oleg Alexandrov, and Andrea Bertozzi, Linear stability of particle laden thin films, European Physical Journal - Special Topics, 166(1), pp. 77-81, 2009. preprint version
  14. Benjamin P. Cook Theory for particle settling and shear-induced migration in thin-film liquid flow Phys. Rev. E 78, 045303(R) (2008).
  15. Thomas Ward, Electrohydrostatically driven flow and instability in a vertical Hele-Shaw cell, Langmuir, 24, 3611-3620, 2008.
  16. B. Cook, A. L. Bertozzi, and A. E. Hosoi, Shock Solutions for Particle-Laden Thin Films, SIAM J. Appl. Math. vol. 68, no. 3, pp. 760-783, 2008, preprint version.
  17. Thomas Ward, Electrohydrostatically driven flow and instability in a vertical Hele-Shaw cell. Langmuir, 24, 3611-3620, 2008.
  18. Thomas Ward and Asher Metchik, Viscous fluid mixing in a tilted tank by periodic shear. Chem. Engng. Sci. 62 (22), 6274-6284, 2007.
  19. Thomas Ward, Electrohydrostatic adhesion of rigid-planar electrodes. J. Electrostat. 65 (12), 742-749, 2007.
  20. T. Ward, 2006 Radial spreading of a viscous drop between parallel-plane surfaces. Phys. Fluids 18, 093101.