Program overview

MONDAY MORNING, 22 NOVEMBER 2004

08:00 FA.001 The Structure of Turbulent Boundary Layers Subjected to Non-Zero Streamwise Pressure Gradients

Y. Wu, K. T. Christensen (Dept. of Theoretical and Applied Mechanics, Univ. of Illinois at Urbana-Champaign)

08:13 FA.002 Another View of Pressure Gradient Turbulent Boundary Layers Via Similarity Analysis

Xia Wang, Luciano Castillo (Rensselaer Polytechnic Institute)

08:26 FA.003 Mean Dynamics and Scaling Properties of Turbulent Boundary Layers with Pressure Gradient

M. Metzger, P. Fife (University of Utah)

08:39 FA.004 An Investigation of the Outer Flow Scaling of Developing Adverse Pressure Gradient Turbulent Boundary Layers: Part 1. Mean Deficit and Reynolds Stress Behavior

Catherine Anderson (Victoria University), Brian Brzek, Luciano Castillo (Rensselaer Polytechnic Institute), Ozden Turan (Victoria University), Victoria University Collaboration, Rensselaer Polytechnic Institute Collaboration

08:52 FA.005 An Investigation of the Outer Flow Scaling of Developing Adverse Pressure Gradient Turbulent Boundary Layers: Part 2. Flow Development and Characterization

Brian Brzek (Rensselaer Polytechnic Institute), Catherine Anderson (Victoria University), Luciano Castillo (Rensselaer Polytechnic Institute), Ozden Turan (Victoria University)

09:05 FA.006 IMPACT OF VARIOUS PRESSURE GRADIENTS ON HIGH REYNOLDS NUMBER TURBULENT BOUNDARY LAYERS

Kapil Chauhan, Chris Christophorou, Hassan Nagib (IIT, Chicago, IL 60616)

09:18 FA.007 Effects of Initial Conditions on FPG Turbulent Boundary Layers

Raul Bayoan Cal (Rensselaer Polytechnic Institute), Gunnar Johansson (Chalmers University of Technology), Luciano Castillo (Rensselaer Polytechnic Institute)

09:31 FA.008 Development of a turbulent adverse pressure gradient boundary layer on a straight ramp

Carolyn Aubertine, John Eaton (Stanford University)

09:44 FA.009 Turbulence Based Microhabitat Selection Criteria for Salmonids

Hans Tritico (Dept. of Civil and Environmental Engineering, University of Michigan), Paul Webb (School of Natural Resources and the Environment, University of Michigan), Aline Cotel (Dept. of Civil and Environmental Engineering, University of Michigan)

08:00 FB.001 Shape of Rising Bubbles in a Nematic Liquid Crystal

Chun Liu (Department of Mathematics, The Pennsylvania State University, University Park, PA 16802, USA), Pengtao Yue, James J. Feng (Department of Chemical and Biological Engineering and Department of Mathematics, University of British Columbia, Vancouver, BC V6T 1Z4, Canada), Jie Shen (Department of Mathematics, Purdue University, West Lafayette, IN 47907, USA), Andrew Belmonte (Department of Mathematics, The Pennsylvania State University, University Park, PA 16802, USA)

08:13 FB.002 Energy transfer between the shape and volume modes of a nonspherical bubble

Anthony Harkin (Harvard University)

08:26 FB.003 Dynamics of freely rising flat cylinders

Pedro Cordeiro-Fernandes, Frederic Risso, Patricia Ern, Jacques Magnaudet (Institut de Mecanique des Fluides - UMR CNRS/UPS-INP 5502 - Allee du Prof. C. Soula - 31400 Toulouse - France)

08:39 FB.004 Dynamics of a gas bubble rising in a vertical channel

Catherine Norman, Michael J. Miksis (Northwestern University)

08:52 FB.005 Clustering in bubbly liquids

Bernardo Figueroa, Roberto Zenit (IIM- National Autonomous University of Mexico)

09:05 FB.006 THE EFFECT OF LIQUID TEMPERATURE FLUCTUATIONS ON A VAPOR BUBBLE

Binze Yang, Andrea Porsperetti (The Johns Hopkins University)

09:18 FB.007 Shape deformations and period doubling in single bubble sonoluminescence

Jeppe S. Dam, Mogens T. Levinsen (Niels Bohr Institute)

09:31 FB.008 New type of recycling mode in SBSL suggests link to MBSL

Mogens T. Levinsen, Jeppe S. Dam (Niels Bohr Institute)

09:44 FB.009 On the Unsteady Expansion and Contraction of a Vapour Bubble Confined Between Superheated or Subcooled Plates

Stephen Wilson, Kausik Das (Department of Mathematics, University of Strathclyde)

08:00 FC.001 Active flow control in microfluidic systems using thermally responsive polymer solutions

Dorian Liepmann (Dept. of Bioengineering, UC Berkeley), Boris Stoeber, Susan Muller (Dept. of Chemical Engineering, UC Berkeley)

08:26 FC.003 A Universal AC Micro-Pump

Zachary Gagnon, Hsueh-Chia Chang (Department of Chemical and Biomolecular Engineering, University of Notre Dame)

08:39 FC.004 Designing an Optimal DC Electrokinetic Pump

Ping Wang, Zilin Chen, Hsueh-Chia Chang (Center for Microfluidics and Medical Diagnostics, Department of Chemical and Biomolecular Engineering, University of Notre Dame)

08:52 FC.005 Electro-kinetically triggered capillary switches

Michael J. Vogel, Paul H. Steen (Cornell University), Peter Ehrhard (Forschungszentrum Karlsruhe)

09:05 FC.006 Electrokinetic control of gold nanowires in microfluidics

S. M. Davison (Dept. of Mech. & Nuc. Eng., Penn State University), T. S. Mayer (Dept of Elec. Eng., Penn State University), K. V. Sharp (Dept. of Mech. & Nuc. Eng., Penn State University)

09:18 FC.007 Experimental Investigation of Micro Counter-Current Flow Using High-Speed Micro PIV

Kyosuke Shinohara, Yasuhiko Sugii (Department of Quantum Engineering and Systems Science, University of Tokyo), Arata Aota, Akihide Hibara, Takehiko Kitamori (Department of Applied Chemistry, University of Tokyo), Koji Okamoto (Department of Quantum Engineering and Systems Science, University of Tokyo)

09:31 FC.008 Micro-scale electrochemically actuated capillary lens

Wootaek Hwang, Marcus Ciuryla, Amir Hirsa, Theodorian Borca-Tasciuc (Rensselaer Polytechnic Institute)

09:44 FC.009 Electrochemically controlled liquid lens

Carlos López, Amir Hirsa (Rensselaer Polytechnic Institute)

08:00 FD.001 Ferrofluid Turbulence Modification by Applied Magnetic Fields

Kristopher Schumacher, Bruce Finlayson (University of Washington Chemical Engineering Dept., Seattle, WA), James Riley (University of Washington Mechanical Engineering Dept., Seattle, WA)

08:13 FD.002 The physical origin of Maximum Drag Reduction (MDR) with dilute polymer solutions

Rayhaneh Akhavan, Dong-Hyun Lee (Dept. of Mechanical Engineering, University of Michigan, Ann Arbor, MI 48109-2125, USA)

08:26 FD.003 Passive Scalar Transport in Polymer Drag Reduced Turbulent Channel Flows

Bamin Khomami, Radhakrishna Sureshkumar (Dept. of Chemical Engineering, Washington University), Vijay Gupat

08:39 FD.004 Turbulence statistics at Maximum Drag Reduction in viscoelasic turbulent channel flow

Dong-Hyun Lee, Rayhaneh Akhavan (Dept. of Mechanical Engineering, University of Michigan, Ann Arbor, MI 48109-2125, USA)

08:52 FD.005 Numerical simulations of non-homogeneous viscoelastic turbulent channel flow

Kostas Housiadas, Antony Beris (Department of Chemical Engineering, University of Delaware)

09:05 FD.006 Numerical study of turbulence subjected to a straining-relaxation-destraining cycle.

Juan Hierro, Charles Meneveau (CEAFM and Dept. of Mechanical Engineering, Johns Hopkins University.)

09:18 FD.007 Direct Numerical Simulations of Turbulence Time Reversibility and Inverse Energy Transfer

Sharath S. Girimaji, Ravi Bikkani, Dazhi Yu (Texas Aamp;M University)

09:31 FD.008 A DNS Study of Strained Turbulent Axial Vortices

Gregory Blaisdell (Purdue University), Brijesh Eshpuniyani (University of Michigan)

09:44 FD.009 Application of Evidence Theory to Quantify Uncertainty in Turbulent Flow Simulations

S.V. Poroseva, M.Y. Hussaini, S.L. Woodruff (School of Computational Science and Information Technology, Florida State University)

08:00 FE.001 Peeling, Healing and Bursting in an Elastic Sheet

Anette Hosoi (MIT), L. Mahadevan (Harvard)

08:13 FE.002 Flow-induced flutter in a wall-bounded elastic sheet

M.S. Weidman, M. Argentina (Harvard University), A.E. Hosoi (Massachusetts Institute of Technology), L. Mahadevan (Harvard University)

08:26 FE.003 Singularity Formation in Vortex Sheets in a Channel

Lyudmyla Barannyk, Robert Krasny (University of Michigan), Demetrius Papageorgiou (New Jersey Institute of Technology)

08:39 FE.004 Pearling Instability of Nano-flows Confined to a Chemical Channel

T.S. Lo (Levich Institute, City College of CUNY, New York, NY), M. Rauscher (Max-Plank-Institut für Metallforschung and ITAP, Universität Stuttgart, Germany), J. Koplik (Levich Institute, City College of CUNY, New York, NY), J.R. Banavar (Physics Department, Penn State University, University Park, PA), S. Dietrich (Max-Plank-Institut für Metallforschung and ITAP, Universität Stuttgart, Germany)

08:52 FE.005 The effect of surfactant on nonlinear parametrically-excited surface waves in thin liquid films

Richard Craster (Dept. of Mathematics, Imperial College London), Satish Kumar (Dept. of Chemical Engineering amp; Materials Science, Univeristy of Minnesota), Omar Matar (Dept. of Chemical Engineering, Imperial Collge London)

09:05 FE.006 Characterization of Dynamic, Permanent Nonwetting

Peter Nagy (Georgia Tech), Lennert van den Doel, Lucas van Vliet (Delft U Tech), Paul Neitzel (Georgia Tech)

09:18 FE.007 Nonlinear evolution of thin liquid films dewetting near soft elastomeric layers

Satish Kumar (University of Minnesota), Omar K. Matar (Imperial College London)

09:31 FE.008 Effect of flow with inertia on monolayer mesoscale structure

Amir Hirsa, Jonathan Leung (Rensselaer Polytechnic Institute), Michael Vogel (Cornell University), Juan Lopez (Arizona State Univeristy)

08:00 FF.001 DSMC Simulations of Transient Microbeam Gas Flow

M. A. Gallis, J. R. Torczynski, D. J. Rader (Sandia National Laboratories)

08:13 FF.002 DSMC Convergence for Microscale Gas-Phase Heat Conduction

D. J. Rader, M. A. Gallis, J. R. Torczynski (Sandia National Laboratories)

08:26 FF.003 A hybrid continuum-atomistic multiscale method for micron and larger scale flows

Xiaobo Nie, Mark Robbins (Department of Physics and Astronomy, The Johns Hopkins University), Shiyi Chen (Department of Mechanical Engineering, The Johns Hopkins University)

08:39 FF.004 A hybrid continuum-atomistic and multiple time scale algorithm for micro- and nano-fluid flow

Jin Liu, Shiyi Chen (Department of Mechanical Engineering, The Johns Hopkins University), Xiaobo Nie, Mark Robbins (Department of Physics and Astronomy, The Johns Hopkins University)

08:52 FF.005 Experimental study of vapor bubbles in microchannels

Li Yang (Department of Mechanical and Environmental Engineering, University of California, Santa Barbara), G. M. Homsy (Department of Mechanical and Environmental Engineering , University of California, Santa Barbara)

09:05 FF.006 Microchannel Flow Induced by Evaporation near the Meniscus

Choonghyo Choi, Songwan Jin, Jung Yul Yoo (Seoul National University)

09:18 FF.007 Characterization of the Dynamic Pressure Response of Fuels in Microchannels

Brenda Haendler, Albert Pisano, Dorian Liepmann (University of California, Berkeley)

09:31 FF.008 Local control of periodic pattern formation in driven binary immiscible fluid.

Olga Kuksenok (Chemical Engineering Department, University of Pittsburgh, Pittsburgh, PA), David Jasnow (Physics and Astronomy Department, University of Pittsburgh, Pittsburgh, PA), Anna Balazs (Chemical Engineering Department, University of Pittsburgh, Pittsburgh, PA)

09:44 FF.009 3D coherent structures of surface turbulence

Evgeny Demekhin (University of Notre Dame)

08:00 FG.001 A Localized Data-Based Stability Analysis for Turbulence Study and Control

X. San Liang, Donald Anderson, Howard Stone (Division of Engineering and Applied Sciences, Harvard University), Meng Wang (Center for Turbulence Research, NASA Ames Research Center/Stanford University)

08:13 FG.002 Identification of time-periodic orbits in chaotic systems

Laura I. Cerviño, Thomas R. Bewley (UC San Diego)

08:26 FG.003 Effects of hydrophobic surface on skin-friction drag

Taegee Min, John Kim (University of California Los Angeles)

08:39 FG.004 On the possibility of skin-friction reduction using d-type roughness

Seonghyeon Hahn, Haecheon Choi (Seoul National University)

08:52 FG.005 Active feedback control achieving sub-laminar skin friction drag

Koji Fukagata, Nobuhide Kasagi (Department of Mechanical Engineering, The University of Tokyo)

09:05 FG.006 Stability and control of a high-speed cavity running vehicle

Martin Wosnik, Roger E.A. Arndt, Tyler Ryan, Gary Balas (University of Minnesota), Supercavitation Team

09:18 FG.007 Passive Control of Flow behind a Two-dimensional Model Vehicle for Drag Reduction Using Wake Disrupter

Haecheon Choi, Hyungmin Park, Jin Choi, Woo-Pyung Jeon (Seoul National University)

09:31 FG.008 Numerical Simulation of Flow Control Over Airfoils Using Plasma Actuators

Vladimir Voikov, Thomas Corke (University of Notre Dame), Osamah Haddad (Jordan University of Science amp; Technology), Center for Flow Physics and Control (FlowPAC) Team

09:44 FG.009 Modeling of Plasma Actuator Effects Using Lumped Element Circuit Model

Dmitriy Orlov, Thomas Corke (University of Notre Dame), Osamah Haddad (Jordan University of Science amp; Technology), Center for Flow Physics and Control (FlowPAC) Team

08:00 FH.001 Pattern formation in vibrofluidized rod-shaped granular material

Jennifer Galanis, Dan Sackett (National Institutes of Health), Wolfgang Losert (University of Maryland), Ralph Nossal (National Institutes of Health)

08:13 FH.002 Subharmonic waves in vibrated fine granular media

Jean-Philippe Matas, Robert P. Behringer (Duke University)

08:26 FH.003 Onset of Patterns in Continuum and Molecular Dynamics Simulations of an Oscillated Granular Layer

J.B. Swift, J. Bougie, J. Kreft, Harry L. Swinney (Center for Nonlinear Dynamics, UT Austin)

08:39 FH.004 Temperature Anisotropy in a Driven Granular Gas

Devaraj van der Meer (University of Twente, The Netherlands), Peter Reimann (University of Bielefeld, Germany)

08:52 FH.005 An investigation of the role of inelasticity in the ordering in a thin vibrated granular layer

Francisco Vega Reyes, P. Melby, P. Kumar, D. A. Egolf, J. S. Urbach (Department of Physics, Georgetown University)

09:05 FH.006 Kinetic Theory in a Driven Granular Gas Experiment for a Mechanically Fluidized Bed

G. W. Baxter (Physics Department, Penn. State Univ, Behrend College), J. S. Olafsen (Department of Physics & Astronomy, University of Kansas)

09:18 FH.007 Erosion channels in a granular bed

A. Lobkovsky (Dept. of Earth, Atmospheric and Planetary Sciences, MIT), B. Smith, A. Kudrolli (Department of Physics, Clark University), D. Rothman (Dept. of Earth, Atmospheric and Planetary Sciences, MIT)

09:31 FH.008 Dynamics of a dimer on an oscillated plate

A. Kudrolli (Dept. of Physics, Clark University), S. Dorbolo (GRASP, Physics Department, University of Liège, Belgium), D. Volfson, L. Tsimring (Institute for Nonlinear Science, University of California, San Diego)

09:44 FH.009 Hysteresis and competition between disorder and crystallization in sheared and vibrated granular flow

Karen E. Daniels, Robert P. Behringer (Dept. of Physics and Center for Nonlinear and Complex Systems, Duke University)

08:00 FJ.001 Response of turbulence subjected to a straining-relaxation-destraining cycle

Jun Chen, Charles Meneveau, Joseph Katz (CEAFM and Deparment of Mechanical Engineering, Johns Hopins University)

08:13 FJ.002 Dynamic computation of correlations for optimal finite-volume LES modeling

Paulo Zandonade, Robert D. Moser (University of Illinois at Urbana-Champaign)

08:26 FJ.003 Sampling-based dynamic procedure for LES in physical space

Gregoire Winckelmans, Laurent Georges, Laurent Bricteux, Herve Jeanmart (Universite catholique de Louvain (UCL), Belgium)

08:39 FJ.004 Assessment of subgrid scalar dissipation models for LES of reacting flows

O.S. Sun, L.K. Su (Johns Hopkins University)

08:52 FJ.005 Large-Eddy Simulation of scalar transport in turbulent channel flow at high Reynolds number

Hugo Pasinato (Facultad de Ingenieria, Universidad Nacional de la Patagonia), Kyle Squires (MAE Department, Arizona State University)

09:05 FJ.006 Temporal behavior of a low-dimensional dynamical system proposed for construction of subgrid-scale models in LES of scalar transport

J. M. McDonough (University of Kentucky), J. C. Holloway (University of California, Los Angeles), M. G. Chong (PowerLab, Irwindale, CA)

09:18 FJ.007 The behavior of consistent dynamic structure models in LES of rotating homogeneous turbulence

Hao Lu (Department of Mechanical Engineering, University of Wisconsin - Madison), Leslie Smith (Department of Mathematics, Univeristy of Wisconsin - Madison), Christopher Rutland (Department of Mechanical Engineering, University of Wisconsin - Madison)

09:31 FJ.008 Mixed nonlinear LES for novel airfoils

Robert M. Kerr (University of Warwick), Paul G. Tucker (University of Wales, Swansea)

09:44 FJ.009 Drop Size Distribution in Turbulent Mixing of Two-Phase Flows

Yuan-Nan Young, Frank Ham, Nicole Riemer, Marcus Herrmann (CTR, Stanford University), Vittorio Cristini (Dept. of Mathematics, UCI)

08:00 FK.001 On the dynamics of flame-edges in diffusion-flame/vortex interactions

Miguel Hermanns (Universidad Politécnica de Madrid, Spain), Marcos Vera (Universidad Carlos III de Madrid, Spain), Amable Liñán (Universidad Politécnica de Madrid, Spain)

08:13 FK.002 Modeling and Simulation of Combustion in PDE using simplified Chemical Mechanisms

Arun P. Raghupathy, Karman Ghia, Urmila Ghia (University of Cincinnati)

08:26 FK.003 The role of compressible turbulence in detonation waves

Matei I. Radulescu (Mechanical and Aerospace Engineering, Princeton University), Gary J. Sharpe (Los Alamos National Laboratory), Chung K. Law (Mechanical and Aerospace Engineering, Princeton University)

08:39 FK.004 Detonation Initiation by Thermal Power Deposition

D.R. Kassoy, M.W. Nabity (University of Colorado, Boulder)

08:52 FK.005 Theory of Detonation Initiation and Failure in Gaseous and Condensed Explosives Described by a General Equation of State

Aslan R. Kasimov, D. Scott Stewart (University of Illinois)

09:05 FK.006 The Fluid Dynamics of a Pulse Detonation Engine-V

K. Kailasanath, C. Li (Naval Research Laboratory, Washington, DC)

09:18 FK.007 Self-sustaining, weakly curved, imploding pathological detonation.

V. Gorchkov, M. Short (TAM, UIUC), G.J. Sharpe (LANL)

09:31 FK.008 Induction Times of Branched-Chain Thermal Explosions

Gonzalo Del Alamo, Forman A. Williams (Center for Energy Research. Department of Mechanical and Aerospace Engineering. Universidad de California, San Diego)

09:44 FK.009 The Magnitude of Lead Shock Oscillation in Propagating Detonations

Joanna Austin (University of Illinois at Urbana-Champaign), Florian Pintgen, Joe Shepherd (California Institute of Technology)

08:00 FL.001 Conditions that Inhibit the Radiation of Inertia-Buoyancy Waves from a Cyclone

D.A. Schecter (Dept. Atmos. Science, Colorado State Univ.)

08:13 FL.002 Instability and wave propagation in compressible quasi-geostrophic dynamics

Richard Scott (Northwest Research Associates, Bellevue, WA), David Dritschel (University of St Andrews, St Andrews, Scotland)

08:26 FL.003 Angular distribution of Rossby wave energy

Alexander Balk (Department of Mathematics, University of Utah)

08:39 FL.004 Trapped equatorial waves in shallow water equations with a complete Coriolis force

Paul Dellar (Department of Mathematics, Imperial College London, London SW7 2AZ, United Kingdom)

08:52 FL.005 The dynamics of waves in a two-layer fluid with continuous density

John McHugh (University of New Hampshire)

09:05 FL.006 The distributions of Reynolds Stresses, production, dissipation and vorticity in the bottom boundary layer of the coastal ocean

Roi Gurka, Luksa Luznik, Weihong Zho (Dept. of Mechanical Engineering, Johns Hopkins University), Alex Nimmo-Smith (School of Earth, Ocean and Environmental Sciences, University of Plymouth, UK), Joseph Katz (Dept. of Mechanical Engineering, Johns Hopkins University), Tom Osborn (Dept. of Earth and Planetary Sciences, Johns Hopkins University)

09:18 FL.007 Helicity of spin-down of lid-driven axisymmetric flow in a cylinder

Daniel T. Valentine (Clarkson University)

09:31 FL.008 Large Eddy Simulation of Stably Stratified Open Channel Flow

John Taylor, Sutanu Sarkar (Department of Mechanical and Aerospace Engineering, University of California, San Diego), Vincenzo Armenio (Dipartimento di Ingegneria Civile, Universita degli Studi di Trieste, Trieste, Italy)

09:44 FL.009 On the similarity of vortical structures between the rotating shear flow and the Dean flow

Yoshito Kaga, Shinichiro Yanase (Department of Mechanical Engineering, Faculty of Engineering, Okayama University, Japan)

08:00 FM.001 Noise Reduction in Dual-Stream Jets

Ali Dadvar, Aaron Fihn, Dimitri Papamoschou (University of California, Irvine)

08:13 FM.002 Instability waves in a round jet detected using a near-field phased microphone array

Takao Suzuki, Tim Colonius (Caltech), James Bridges Collaboration, Sang Soo Lee Collaboration

08:26 FM.003 MODELLINGTHE TURBULENT MIXING NOISE ASSOCIATED WITH COANDA JETS

Caroline Smith (James Madison University, Harrisonburg, Va 22807)

08:39 FM.004 Quantitative Visualization of Acoustically-Coupled Flows over Coaxial Side Branch Resonators

Peter Oshkai, Alistair Howard (University of Victoria)

08:52 FM.005 A Study of Sound Generation by an Airfoil via Direct Numerical Simulation

Christopher Tam (Affiliation), Hongbin Ju (Department of Mathematics, Florida State University)

09:05 FM.006 Experimental Investigation of the Turbulent Production of Trailing Edge Sound

Daniel Shannon, Scott Morris (Notre Dame)

09:18 FM.007 An experimental investigation of the lip pressure-velocity correlation of a Ma 0.85 axisymmetric turbulent jet

Andre Hall, Charles Tinney, Mark Glauser (Syracuse University)

09:31 FM.008 Overview of Experimental Study of the Influence of Grid-generated Turbulence on Ultrasound Wave Propagation

Tatiana Andreeva, William Durgin (Worcester Polytechnic Institute)

08:00 FN.001 General solutions of the Stokes flow --- Lamb's solution and multipole expansion

Kengo Ichiki (Mech. Eng., Johns Hopkins Univ.)

08:13 FN.002 Simulations of an ellipsoid settling in a cylindrical tube

Howard Hu, Tirumani Swaminathan, Karthik Mukundakrishnan (University of Pennsylvania)

08:26 FN.003 Dynamic simulation of particle sedimentation

Zhongzhen Zhang, Andrea Prosperetti (Department of Mechanical Engineering, Johns Hopkins University)

08:39 FN.004 Fluctuations, Stratification and Stability in Mondisperse Fluidized Beds

Philip Segre (Physics Dept, Emory University, Atlanta, Ga 30322), Jim McClymer (Physics Dept., Univ. of Maine, Orono, Maine 04469)

08:52 FN.005 Pattern formation in sedimenting suspensions of spheroids

David Saintillan, Eric Darve (Department of Mechanical Engineering, Stanford University), Eric S. G. Shaqfeh (Departments of Chemical and Mechanical Engineering, Stanford University)

09:05 FN.006 Effects of inertia on the evolution of sedimenting particle clusters

Ganesh Subramanian (Department of chemical and bio-molecular engineering, Cornell University, Ithaca NY 14853), Donald Koch (Department of chemical and bio-molecular engineering, Ithaca, NY 14853)

09:18 FN.007 On Large-Scale Motions in Random Suspensions in Large Containers

Jonathan Luke (New Jersey Institute of Technology)

09:31 FN.008 Front propagation in polydisperse sedimentation

Peter Mucha (School of Mathematics, Georgia Tech)

09:44 FN.009 Rayleigh-Taylor Instability of a Sedimenting Suspension

Svetlana Bukharina, Peter Mucha (School of Mathematics, Georgia Tech)

08:00 FP.001 Viscous instabilities of raft in vesicles or cell membranes

Martine Ben Amar (Ecole Normale Supérieure and Paris VI University)

08:13 FP.002 Propulsion of small bodies by unsteady temperature fields

Ehud Yariv (Technion - Israel Institute of Technology)

08:26 FP.003 How particles interact and form strings and bridges in a shear flow

Pietro Poesio (J.M. Burgers Center, Delft University of Technology; Università degli Studi di Brescia), Gijs Ooms (J.M. Burgers Center, Delft University of Technology), Julian C.R. Hunt (J.M. Burgers Center, Delft University of Technology, University College London), Andreas Ten Cate (Princeton University)

08:39 FP.004 Observations of the motion of heavy balls in a viscous fluid.

Tom Mullin (Manchester Centre for Nonlinear Dynamics, University of Manchester), Carlos del Pino (Department of Engineering Mechanics and Fluid Mechanics, Universidad de Malaga)

08:52 FP.005 The Curiously Slow Snail Ball

David Vener, Neil Balmforth, Mike Sekora, John Bush (Department of Applied Mathematics, MIT), Bill Young (Scripps Institution of Oceanography)

09:05 FP.006 The normal force in sliding lubrication of deformable spheres and substrates

H.A. Stone, M. Abkarian (DEAS, Harvard University), R.T. Bonnecaze (Dept of Chemical Engineering, UT Austin)

09:18 FP.007 The flow generated by an oscillating microcantilever near a wall

R.J. Clarke, J. Billingham, P.M. Williams, O.E. Jensen (University of Nottingham), S.M. Cox (Adelaide University)

09:31 FP.008 Experimental Study of the Flow Induced By A Rotating Flat Plate in a Cylinder

Douglas Bohl (Naval Surface Warfare Center Indian Head Division), Isaiah Gammache (United States Naval Academy)

09:44 FP.009 The wake flow behind a cylinder undergoing two-degree-of-freedom forced oscillations

Serpil Kocabiyik, Qasem Al-Mdallal (Memorial University, Canada)

09:57 FP.010 Refreshment Break