Program overview

TUESDAY MORNING, 23 NOVEMBER 2004

08:00 KA.001 When do we REALLY know enough?

William K. George (Chalmers University of Technology, Gothenburg, Sweden)

08:13 KA.002 Evidence of the -1-law in a high Reynolds number boundary layer and its development from the sublayer

Tim Nickels (Department of Engineering, University of Cambridge, England.), Salah Hafez (Department of Mechanical and Manufacturing Engineering, University of Melbourne, Australia), Ivan Marusic (Department of Aerospace Enginnering and Mechanics, University of Minnesota, USA), Min Seong Chong (Department of Mechanical and Manufacturing Engineering, University of Melbourne, Australia)

08:26 KA.003 Scaling of wall-normal velocity fluctuations in wall turbulence

Jonathan F. Morrison (Imperial College, London UK), Rongrong Zhao, Gary J. Kunkel, Alexander J. Smits (MAE, Princeton University)

08:39 KA.004 A New Method for Estimating Wall Shear Stress in Turbulent Boundary Layers

Anthony Kendall, Manoochehr Koochesfahani (Dept. of Mechanical Engineering, Michigan State University, East Lansing, MI 48864)

08:52 KA.005 Representation of Two-Point Second-Order Velocity Correlations In Turbulent Channel Flow

Amitabh Bhattacharya, R.D. Moser (U. of Illinois), J.C. del Álamo, J. Jiménez (U. Politécnica de Madrid)

09:05 KA.006 Turbulent boundary layer velocity-vorticity products at high and low Reynolds numbers

Paththage Priyadarshana, Joseph Klewicki (Department of Mechanical Engineering, University of Utah)

09:18 KA.007 The Entrance Length for Fully Developed Turbulent Channel Flow

Kim Lien (The University of Melbourne), Jason Monty, Min Chong, Andrew Ooi

09:31 KA.008 Trends in Turbulent Channel Flow Wall Normal Two Point Velocity Correlations with Reynolds Number

Robert McKee (Southwest Research Institute), Ronald Panton (University of Texas)

09:44 KA.009 Mechanisms for viscous losses and low-pressure events in the tip-clearance flow of a turbomachinery cascade

Donghyun You, Meng Wang, Parviz Moin (Center for Turbulence Research, Stanford University/NASA Ames), Rajat Mittal (Department of Mechanical and Aerospace Engineering, George Washington University)

09:57 KA.010 Mixing efficiency of outer-layer fluids into a model boundary layer

Meihong Sun, Doug Casey (Baylor University, Waco, TX 76798), Seth Lichter (Northwestern University, Evanston, IL 60201)

08:00 KB.001 DNS of axisymmetric density currents using the equilibrium Eulerian formulation

S. Balachandar, Mariano Cantero, James Ferry, Marcelo Garcia (University of Illinois, Urbana-Champaign)

08:26 KB.002 The PDF Approach for Modelling Particle Transport in Turbulent Flows

Michael Reeks (University of Newcastle upon Tyne)

08:52 KB.003 Applications of a unifying theoretical and computational framework to multiphase geophysical systems

George Bergantz, Joseph Dufek (University of Washington)

09:18 KB.004 Direct Simulations of Turbulent Particle-Laden Flows

Lian-Ping Wang (University of Delaware)

09:44 KB.005 On the effect of subgrid turbulence on the statistical properties of particles suspended in homogeneous gas turbulent flows

Olivier Simonin, Pascal Fede (Institut de Mécanique des Fluides de Toulouse, UMR CNRS/INPT/UPS)

08:00 KC.001 Experimental & Computational Analysis of AC Electroosmosis in a Bio-Concentrator

Carl Meinhart (UC - Santa Barbara), Mark Brown (University of Sheffield - UK), Marin Sigurdson (UC - Santa Barbara)

08:13 KC.002 Microfluidic Dielectrophoretic Gates for the Front-End Device of a Biodetection System

Boris Khusid (New Jersey Institute of Technology), Conrad D. James, Paul C. Galambos, Murat Okandan (Sandia National Laboratories), Dawn J. Bennett (University of Maryland Baltimore County), David Jacqmin (NASA Glenn Research Center), Andreas Acrivos (The Levich Institute, The City College of New York)

08:26 KC.003 Faradaic AC Electrokinetic Flow and Particle Traps

Yuxing Ben, Hsueh-Chia Chang (Department of Chemical and Biomolecular engineering, University of Notre Dame)

08:39 KC.004 AC Electrokinetic Bacteria/Virus Traps and Separatrix Crossing

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

08:52 KC.005 Bioparticle Segregation and Blood Loading into Diagnostic Kits

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

09:05 KC.006 A mesoscopic simulation on distributions of red blood cells in a bifurcating channel

Yasuhiro Inoue, Shu Takagi, Yoichiro Matsumoto (University of Tokyo)

09:18 KC.007 Shear stress distribution measurement around adherent red cell in microchannel correlated with Poly-L-lysine concentration

Matthew S. Pommer (Graduate student - University of California, Santa Barbara), Carl D. Meinhart (Professor - University of California, Santa Barbara), Lanping A. Sung Collaboration

09:31 KC.008 A microfluidic platform for regulating signal transduction in single cells

Pak Kin Wong (Department of Mechanical and Aerospace Engineering, University of California, Los Angeles), Fuqu Yu, Ren Sun (Department of Molecular and Medical Pharmacology, University of California, Los Angeles), Chih-Ming Ho (Department of Mechanical and Aerospace Engineering, University of California, Los Angeles)

09:44 KC.009 Electrothermal stirring to Speed up Bioassays

Marin Sigurdson, Carl D. Meinhart (UC Santa Barbara)

09:57 KC.010 Microfluidic devices unfolding mechanisms of eukaryotic chemotaxis

Azadeh Samadani, Alexander van Oudenaarden (MIT)

08:00 KD.001 Biomimetic thrust production with a modified Schmidt wave propeller

Karl von Ellenrieder, Joe Buzard, Hannuman Bull (Ocean Engineering, Florida Atlantic University)

08:13 KD.002 Convergence in Underwater Swimming Between Nature and Engineering

Promode R. Bandyopadhyay (Naval Undersea Warfare Center, Newport, RI), Michael Boller (NUWC amp; Biology Dept., URI, Kingston, RI)

08:26 KD.003 Hovering Underwater: Toward a Comparison of Steady-state and Unsteady Hydrodynamics

David Beal, Promode R. Bandyopadhyay, Thomas Fulton, William P. Krol Jr., Alberico Menozzi (Naval Undersea Warfare Center, Newport, RI)

08:39 KD.004 Experimental visualization of rapid maneuvering by biologically inspired propulsors

A.H. Techet (Massachusetts Institute of Technology)

08:52 KD.005 Numerical Model for Fish-Like Locomotion in Potential Flow

Juan Melli-Huber, Clarence Rowley, Dzhelil Rufat (Princeton University), Eva Kanso, Jerrold Marsden (California Institute of Technology)

09:05 KD.006 'Optimal' vortex rings and aquatic propulsion mechanisms

Paul Linden (University of California, San Diego), Stewart Turner (Australian National University)

09:18 KD.007 Locomotion of Articulated Bodies in a Perfect Fluid

Eva Kanso, Jerrold Marsden (California Institute of Technology), Clancy Rowley, Juan Melli-Huber (Princeton University)

09:31 KD.008 Unsteady Laminar CFD Simulation of Undulatory Rainbow Trout Swimming Hydrodynamics

Patrick Flanagan (Northwest Hydraulic Consultants), Rollin Hotchkiss, David Stock (Washington State University)

09:44 KD.009 Fluid Transport by Pulsed-Jet Swimmers: Entrainment and Added Mass in Vortex Wakes

John O. Dabiri, Morteza (Mory) Gharib (Bioengineering and Graduate Aeronautical Laboratories, California Institute of Technology)

09:57 KD.010 Thrust Production and Wake Structure of an Actuated Three-Dimensional Manta Ray Model

Rick Clark, Nir Yungster, Alexander Smits (Mechanical and Aerospace Engineering, Princeton University)

08:00 KE.001 Linear stability analysis of convectively dominated base states for miscible Stokes flow in a Hele-Shaw cell

Nisheet Goyal, Eckart Meiburg (University of California Santa Barbara)

08:13 KE.002 Instability of Immiscible Displacement Fingers in Capillary Tubes

Jun Kuang, Tony Maxworthy (Department of Aerospace and Mechanical Engineering, University of Southern California)

08:26 KE.003 Stretch-flow of thin layers of Newtonian liquids: Fingering patterns and lifting forces

Anke Lindner (PMMH, Ecole Supérieure de Physique et de Chimie Industrielles, 10, rue Vauquelin, 75231 Paris Cedex 05, France), Didi Derks (Soft Condensed Matter, Debye Institute, Utrecht University, Princetonplein 5, 3584 CC Utrecht, The Netherlands), Michael Shelley (Applied Math Lab, Courant Institute, New York University, New York City, NY 10012, USA)

08:39 KE.004 Fjord geometry observed in viscous fingering*

Matt Thrasher, Leif Ristroph, Harry L. Swinney (University of Texas at Austin), Mark Mineev-Weinstein (Los Alamos National Laboratory)

08:52 KE.005 Layering Transitions and Squeeze-Out Patterns in Nanoscale Polymeric Soap Films

Steffen Berg, Sandra M. Troian (Dept. of Chemical Eng., Princeton University, Princeton, NJ)

09:05 KE.006 Numerical Simulations of Interfacial Instabilities on a Rotating Miscible Magnetic Droplet With Effects of Korteweg Stresses

Ching-Yao Chen (National Yunlin University of Science and Technology), H-J Wu (Da-Yeh University)

09:18 KE.007 Quantitative Measurement of Transient Amplification of Rivulets in a Thin Liquid Film

Kyoko Kamei, Jennifer Rieser, Roman O. Grigoriev, Michael F. Schatz (Center for Nonlinear Science and School of Physics, Georgia Institute of Technology)

09:31 KE.008 Free-surface thin film flows over topography: viscoelastic effects

Sergey Saprykin (Department of Chemical Engineering, Imperial College, London SW7 2AZ, UK), Rudolf Koopmans (Dow Benelux BV, Herbert H Dowweg 5, 4542 NM Hoek, The Netherlands), Serafim Kalliadasis (Department of Chemical Engineering, Imperial College, London SW7 2AZ, UK)

09:44 KE.009 Transient growth in driven contact lines

Roman Grigoriev (Georgia Institute of Technology)

09:57 KE.010 SPREADING OF NEMATIC LIQUID CRYSTALS

Christophe Poulard (LPMC Collège de France UMR 7125 du CNRS)

08:00 KF.001 Turbulent Boundary Layers in Supersonic and Hypersonic Flows

Alexander Smits, M. Pino Martin (Mechanical and Aerospace Engineering, Princeton University)

08:22 KF.002 Supersonic Jet Control

Mo Samimy (The Ohio State University)

08:44 KF.003 Turbulence in Supersonic, Separated Flows

J. Craig Dutton (University of Illinois at Urbana-Champaign)

09:06 KF.004 Flow structure and growth of compressible shear layers

Paul Dimotakis (Caltech)

09:28 KF.005 Compressible Turbulence and Jet Noise

Dimitri Papamoschou (University of California, Irvine)

09:50 KF.006 Investigating compressibility effects in shear flows using DNS

Sutanu Sarkar (Mechanical and Aerospace Engineering)

08:00 KG.001 Transient growth in developing plane and Hagen Poiseuille flow

Peter Duck (University of Manchester)

08:13 KG.002 On the Stability of Unsteady Boundary Layers Subject to an Adverse Pressure Gradient

Kevin W. Cassel (Mechanical, Materials and Aerospace Engineering Deprtment, Illinois Institute of Technology), Aleksandr V. Obabko (Department of Astronomy and Astrophysics, University of Chicago)

08:26 KG.003 Leading edge effects in bypass transition

Santhanam Nagarajan, Joel Ferziger, Sanjiva Lele (Stanford University)

08:39 KG.004 Experimental Conditions for the Minimum Critical Reynolds Number in Pipe Flows

Hidesada Kanda (University of Aizu)

08:52 KG.005 DPIV, LDV and SSS investigations of forced laminar-turbulent transition

Kumar Bobba (University of Massachusetts-Amherst), Morteza Gharib, John Doyle (California Institute of Technology)

09:05 KG.006 Axial Flow Effects on the Linear Stability of Circular Couette Flow with Viscous Heating

David Cotrell, G. B. McFadden (NIST)

09:18 KG.007 Subcritical surface waves forced by turbulent Taylor-Couette flow

Daniel P. Lathrop (Dept. of Physics, University of Maryland, College Park, MD 20742), Nicolas Mujica, Andrew Chen (Institute for Research in Electronics and Applied Physics, University of Maryland, College Park, MD 20742)

09:31 KG.008 Symmetry breaking via global bifurcations of two-tori in Taylor-Couette flow

Juan Lopez (Arizona State University), Francisco Marques (Universitat Politecnica de Catalunya, Barcelona), Jan Abshagen, Gerd Pfister (University of Kiel)

09:44 KG.009 Stability of annular Poiseuille flow and spiral Poiseuille flow at small radius ratio

Arne J. Pearlstein, David L. Cotrell (Department of Mechanical and Industrial Engineering, University of Illinois at Urbana-Champaign)

09:57 KG.010 Unusual features in multi-parameter stability in the Taylor-Couette Problem

Randall Tagg (Dept. of Physics, University of Colorado at Denver), Patrick Weidman (Dept. of Mechanical Engineering, University of Colorado at Boulder)

08:00 KH.001 PARTICLE CONTACT AGE AND STRESS RELAXATION IN DENSE GRANULAR MATERIAL

Duan Zhang (Los Alamos National Laboratory)

08:13 KH.002 Shear-producing mechanisms in dense granular flow

Stephanie Ott-Monsivais, Gustavo Gioia, Kimberly Hill (TAM Department, University of Illinois)

08:26 KH.003 Enduring contacts in dense granular flows

Xia Ma, Duan Z. Zhang (Los Alamos National Laboratory, Theoretical Division Fluid Dynamics Group)

08:39 KH.004 Statistical approach to dense granular flows

Lou Kondic (Department of Mathematical Sciences, NJIT), Robert Behringer (Department of Physics, Duke University)

08:52 KH.005 Circulation in Asymmetric Granular Hoppers

John Wambaugh (Dept. of Physics, Duke University), Robert Behringer (Dept. of Physics and CNCS, Duke University)

09:05 KH.006 Dry quick sand

Detlef Lohse, Remco Rauhe, Raymond Bergmann, Devaraj van der Meer (University of Twente)

09:18 KH.007 Terminal motion of sliding and spinning disks with Coulomb friction.

C. P. Malhotra (Tata Research Development amp; Design Centre, Pune, India), P. Weidman (University of Colorado)

09:31 KH.008 Force Chain Correlations in 2D Granular Systems

Trushant Majmudar, Robert Behringer (Physics Department, Duke University)

09:44 KH.009 Dynamics of a sphere impacting a granular medium

Paul B. Umbanhowar, David J. Sweeney (Northwestern University)

09:57 KH.010 Vertical Perturbations of Transparent Soil - Particle Motion in 3D

Justin Stambaugh, Masahiro Toiya, Wolfgang Losert (Dept. of Physics and IREAP, University of Maryland)

08:00 KJ.001 Numerical Diffusion in the FCT Algorithm Revisited

Junhui Liu, Elaine Oran, Carolyn Kaplan (Laboratory for Computational Physics and Fluid Dynamics, Naval Research Laboratory)

08:13 KJ.002 The Multidimensional Flux-Corrected Transport Algorithm on the Fully Threaded Tree

Takanobu Ogawa (Dept. of Mechanical Engineering, Seikei University), Elaine Oran (Laboratory for Computational Physics amp; Fluid Dynamics, Naval Research Laboratory)

08:26 KJ.003 Local Adaption and Dissipation Properties of a Weighted Essentially Non-Oscillatory Scheme

Ellen M. Taylor, M. Pino Martin (Princeton University), V. Gregory Weirs (ASC Flash Center)

08:39 KJ.004 Dynamos in MHD at low magnetic Prandtl number

Y. Ponty (Observatoire de la Cote d'Azur, Nice, France), P.D. Mininni (NCAR, Boulder, CO), D.C. Montgomery (Dartmouth College, Hanover, NH), J.-F. Pinton (CNRS & Ecole Normale Superieure de Lyon, France), H. Politano (Observatoire de la Cote d'Azur, Nice, France), A. Pouquet (NCAR, Boulder, CO)

08:52 KJ.005 On boundary conditions in the Lattice-Boltzmann method

Massimo Tessarotto, Deep Sarmah (Department of Mathematics and Informatics, Trieste University, Italy)

09:05 KJ.006 Computational complexity and hardware implementation issues of Lattice-Boltzmann methods

Marco Tessarotto, Massimo Tessarotto (Department of Mathematics and Informatics, Trieste University, Italy)

09:18 KJ.007 Comparison of Lattice Boltzmann Method and conventional CFD techniques

Y. Khalighi, G. Iaccarino, P. Moin (CTR, Stanford University)

09:31 KJ.008 A more efficient application of lattice-Boltzmann method for Stokes flow

Ejiang Ding, Cyrus K. Aidun (G. W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA.)

09:44 KJ.009 Effect of variable viscosity on the accuracy of lattice Boltzmann method

Jianghui Chao, Renwei Mei, Wei Shyy (University of Florida)

09:57 KJ.010 A lattice Boltzmann / lattice spring model for simulating fluid flow past complient walls

Gavin Buxton, Rolf Verberg (Chemical and Petroleum Engineering Department, University of Pittsburgh), David Jasnow (Department of Physics and Astronomy, University of Pittsburgh), Anna Balazs (Chemical and Petroleum Engineering Department, University of Pittsburgh)

08:00 KK.001 The PDF of velocity differences in turbulent flow

Thomas Lundgren (University of Minnesota)

08:13 KK.002 Decay of isotropic turbulence: fixed points and solutions for non constant palinstrophy for non-constant

J. Raymond Ristorcelli, Daniel Livescu (Los Alamos National Laboratory)

08:26 KK.003 different cascade-speeds for longitudinal and transverse velocity increments

Joachim Peinke, Malte Siefert (Carl-von-Ossietzky University Oldenburg)

08:39 KK.004 Low-wavenumber forcing and turbulent energy dissipation

Nikola Petrov, Charles Doering (Department of Mathematics, University of Michigan)

08:52 KK.005 A Low-dimensional model for turbulent shear flows

Jeff Moehlis (University of California Santa Barbara), Holger Faisst, Bruno Eckhardt (Philipps-Universitat Marburg, Germany)

09:05 KK.006 A similarity theory of anomalous scaling in 3D isotropic turbulence

Mogens V. Melander, Bruce Fabijonas (Dept. of Mathematics, SMU, Dallas TX)

09:18 KK.007 Direct Determination of Turbulent Mapping Protocols from Phase Space Trajectories in Turbulent Plasmas

Joseph Johnson III, Ephrem Mezonlin, Kyron Williams (CeNNAs-FAMU)

09:31 KK.008 Variational bounds on the energy dissipation in body-forced shear flow

Lu Lu, Nikola Petrov, Charles Doering (Department of Mathematics, University of Michigan)

09:44 KK.009 The effect of acceleration on turbulence

Ariane V. Heyden (Technical University of Berlin), Robert Breidenthal (University of Washington)

09:57 KK.010 Upper bound on thermohaline convection

Shreyas Mandre, Neil Balmforth, Shilpa Ghadge (University of British Columbia), Atichart Kettapun (University of California, Santa Cruz)

08:00 KL.001 Scale evolution in quasi-2D grid turbulence

Tanveer Shakeel, Peter Vorobieff (The University of New Mexico)

08:13 KL.002 Turbulence-Generated Interfaces and Regions with Applications to Mixing and Aero-Optics

Roberto C. Aguirre, Jonathan O. Mason, Haris J. Catrakis (University of California, Irvine)

08:26 KL.003 Global energy fluctuations in a turbulent surface

Mahesh Bandi, Walter Goldburg (University of Pittsburgh)

08:39 KL.004 Blobs and Voids in Random Mixing

Emmanuel Villermaux (Université de Provence and IUF, IRPHE, Marseille, France), Jérôme Duplat (Université de Provence, IUSTI, Marseille, France)

08:52 KL.005 On the impact of stratification on small scale turbulence

B. Anders Pettersson Reif (Norwegian Defence Research Establishment (FFI), NO-2027 Kjeller, NORWAY)

09:05 KL.006 Finest dissipative structures in scalar mixing

J. Schumacher (Dept. of Physics, Philipps University, Marburg, Germany), K.R. Sreenivasan (ICTP Trieste, Italy), P.K. Yeung (Aerospace Engineering, Georgia Tech, Atlanta, USA)

09:18 KL.007 Experimental characterization of a Partially Stirred Reactor (PaSR)

Luminita Danaila, Bruno Renou, Jean-Francois Krawczynski, Francois-Xavier Demoulin (CORIA Avenue de l'Universite BP12 76801 Saint Etienne du Rouvray FRANCE)

09:31 KL.008 Experimental study of spectral eddy diffusivity and Prandtl number

Hyung Suk Kang, Charles Meneveau (Johns Hopkins University)

09:44 KL.009 Experimental study of the filtered joint density function of velocity, scalar, and scalar-dissipation and its transport equation

Danhong Wang, Chenning Tong (Clemson University)

09:57 KL.010 A turbulent mixing model from mapping closure approximation

Guowei He, Zifang Zhang (LNM, Institute of Mechanics, Chinese Academy of Sciences)

08:00 KM.001 Controlling Directional Solidification Processes Using Nucleators

Mohammad Shafii, Manoochehr Koochesfahani (Dept. of Mechanical Engineering, Michigan State University, East Lansing, MI 48824)

08:13 KM.002 Puddle Pressures in Planar Flow Spin Casting (PFSC)

Cormac Byrne, Paul H. Steen (School of Chemical and Biomolecular Engineering, Cornell University)

08:26 KM.003 DYNAMICAL MODEL OF THE MOLTEN METAL PUDDLE IN PLANAR FLOW SPIN CASTING

Eric Theisen, Cormac Byrne, Paul H. Steen (Cornell University), Steven Weinstein (Eastman Kodak Company)

08:39 KM.004 Convection in solidifying ternary alloys.

Daniel Anderson (George Mason University), T.P. Schulze (University of Tennessee)

08:52 KM.005 Multi-Drop Filling in Step-and-Flash Imprint Lithography

Shravanthi Reddy, Roger Bonnecaze (The University of Texas at Austin)

09:05 KM.006 The role of Bénard-Marangoni instability on the nucleation and growth of single-wall carbon nanotubes (C-SWNT)

Luca Cortelezzi, Jonathan Duquette, Nilima Nigam (McGill University), Frederic Larouche, Barry Stansfield (INRS-EMT, Canada)

09:18 KM.007 Tip selection in three-dimensional dendrites

M.R. Foster, S. Tanveer (Ohio State U.)

09:31 KM.008 Producing nearly monodisperse, micron and sub-micron solid spheres and capsules with Flow Focusing for biomedical and biotechnology applications.

Maria Flores-Mosquera (Ingeniatrics Technologies, S.L., 41092 Sevilla, Spain), Lucia Martin-Banderas, Alfonso M. Ganan-Calvo (ESI, Universidad de Sevilla, 41092 Sevilla, Spain)

09:44 KM.009 Flow induced morphological instability of a mushy layer

Jerome Neufeld, J.S. Wettlaufer (Yale University)

09:57 KM.010 Two-dimensional simulations of the dynamics of densely-packed fluid loaded cloth

D.T. Akcabay, D.R. Dowling, W.W. Schultz (Dept. of Mech. Eng., The University of Michigan, Ann Arbor, MI, 48109-2133)

08:00 KN.001 Rotating Grid Turbulence in Cryogenic Fluids

Gregory Bewley (Yale University, New Haven, CT), Daniel Lathrop (University of Maryland, College Park, MD), K.R. Sreenivasan (International Center for Theoretical Physics, Trieste, Italy)

08:13 KN.002 E(k)\propto k^-5 observed at large k for rapidly rotating turbulent flow*

Harry L. Swinney, Sungwhan Jung, Ray Yarbrough (University of Texas at Austin)

08:26 KN.003 Analysis of symmetry breaking in rotating flow between disks

Svetlana Kovinskaya, Amromin Eduard (Mechmath LLC), 14530 Bluebird Team

08:39 KN.004 Mixing in the Kuppers-Lortz Mode

Keith Julien, Paul Mullowney, James Meiss (University of Colorado at Boulder, Dept. of Applied Mathematics)

08:52 KN.005 Bypass transition in vortices

Arnaud Antkowiak, Pierre Brancher (Institut de Mécanique des Fluides de Toulouse)

09:05 KN.006 Thin-film flow down a helical channel

Yvonne Stokes (School of Mathematical Sciences, University of Adelaide, Australia), Stephen Wilson, Brian Duffy (Department of Mathematics, University of Strathclyde, Glasgow)

09:18 KN.007 Axisymmetric stability of counter-rotating disk flow

Laurent Martin Witkowski (Université Paris VI 4 place Jussieu, F-75252 Paris Cedex 05 and LIMSI-CNRS UPR 3251, BP 133, F-91403 Orsay Cedex, France), Ivan Delbende (Université Paris VI and LIMSI-CNRS), Patrick Le Quere (LIMSI-CNRS), John S. Walker (Department of Mechanical and Industrial Engineering, University of Illinois at Urbana Champaign)

09:31 KN.008 (Magneto-)hydrodynamics in a finite cylinder

Piotr Boronski, Laurette Tuckerman (LIMSI-CNRS, France)

09:44 KN.009 Numerical simulation of a reduced set of equations for rapidly rotating convection

Michael Sprague, Keith Julien (Dep. of Applied Math, Univ. of Colorado at Boulder), Edgar Knobloch (Dep. of Physics, Univ. of California-Berkeley), Ralph Milliff, Joe Werne (Colorado Research Assoc., Northwest Research Assoc.)

09:57 KN.010 Velocimetry in spherical Couette flow with independently rotating boundaries

Sandra Penny (Institute for Research in Electronics and Applied Physics, University of Maryland, College Park, MD 20742; Dept. of Physics, University of Oregon, Eugene, OR 97403), Daniel Lathrop, Nicolas Mujica (Dept. of Physics, IREAP, University of Maryland, College Park, MD 20742)

08:00 KP.001 Apparent contact angles for an evaporating partially-wetting meniscus predicted and compared with existing experiments.

S. J. S. Morris (Mechanical Engineering, U. C. Berkeley)

08:13 KP.002 Atomistic simulation of an evaporating meniscus

Jonathan Freund (Theoretical and Applied Mechanics, UIUC)

08:26 KP.003 A continuum-atomistic multi-scale simulation of moving contact-lines

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

08:39 KP.004 Droplet Migration By Modulation of the Liquid-Solid Interfacial Energy

Sandra M. Troian, Nikolai V. Priezjev (Dept. of Chemical Eng., Princeton University, Princeton, NJ)

08:52 KP.005 Nonwetting of an isothermal liquid drop above a moving solid surface

Marc K. Smith, G. Paul Neitzel (Georgia Institute of Technology)

09:05 KP.006 Global macroscopic dynamics of contact lines

Karl Glasner (University of Arizona, Department of Mathematics)

09:18 KP.007 Fluctuations of a receding contact line near the entrainment transition

Jose Bico, Giles Delon, Marc Fermigier (Laboratoire PMMH, ESPCI, 10 rue Vauquelin, 75005 Paris)

09:31 KP.008 Probing the boundary conditions in the vicinity of a dynamic contact line

Emmanuelle Rio, Adrian Daerr, Bruno Andreotti, Laurent Limat (PMMH-ESPCI)

09:44 KP.009 Gas bubble with a moving contact line rising in an inclined channel at finite Reynolds number

Michael J. Miksis, Catherine Norman (Northwestern University)

09:57 KP.010 An Efficient, Fully-Implicit, Jacobian-free Time Integration Algorithm for Interfacial Dynamics in Stokes flow

Jingtao Wang, Panagiotis Dimitrakopoulos (Department of Chemical Engineering, University of Maryland, College Park, MD 20742-2111)