Program overview

MONDAY, 24 NOVEMBER 1997

15:15 Fa.01 Particle Segregation and Collisional Shearing Flows

J.T. Jenkins (Cornell University)

15:41 Fa.02 Dynamics of Sheared Granular Layers

J.P. Gollub (Haverford Coll. and U. Penn.)

16:07 Fa.03 Pressure and Surface Dilation and Vibrated Granular Layers

F. Melo (Departamento de Fisica, Universidad de Santiago, Chile)

16:33 Fa.04 Localized Excitations and Global Patterns in a Model of Vibrated Sand

Daniel H. Rothman (Massachusetts Institute of Technology)

15:15 Fb.01 A Nonlinear Stress-Strain Relation for Wall-Bounded Turbulent Flows

Jens Knoell, Dale B. Taulbee (SUNY Buffalo)

15:28 Fb.02 Prediction of a High-Reynolds-Number Self-Preserving Axisymmetric Turbulent Jet

Ali A. Seif (University of Southampton, UK)

15:41 Fb.03 A Solution to the Modeled Reynolds Stress Transport Equation and Algebraic Stress Models

Dale B. Taulbee, Farzad Mashayek (SUNY Buffalo)

15:54 Fb.04 A Quantitative Assessment of Additive Turbulent Decomposition as Applied to Forced Burgers' Equation Chaotic Flows

Lee R. Gibson, J. M. McDonough (University of Kentucky)

16:07 Fb.05 A New Approach to Analyzing and Characterizing the Equilibrium States of the Reynolds Stress Anisotropy in Homogeneous Turbulence

Thibauld Jongen (Swiss Federal Institute of Technology), Thomas Gatski (NASA Langley Research Center)

16:20 Fb.06 Development of Two-Equation Turbulence Models for Flows with Curvature and Rotation

Siva Thangam, Xiaohua Wang, Abdelghani Zigh (Stevens Institute of Technology), Ye Zhou (ICASE, NASA Langley Research Center)

16:33 Fb.07 Parallelization of a non-linear k-\epsilon model for Turbulent Conical Diffuser Flows

Ram S. Azad, Anindya Maiti (University of Manitoba)

16:46 Fb.08 Predictions of the statistics of the passive scalar turbulent mixing.

Patrice Le Gal, Luminitsa Danaila, Fabien Anselmet (I.R.P.H.E.- Marseille, France)

16:59 Fb.09 A Particle Representation Model for Deformations of Homogeneous Turbulence

C. A. Langer, S. C. Kassinos, W. C. Reynolds (Stanford University)

17:12 Fb.10 A One-Point Stress-Dimensionality Model for Deformations of Homogeneous Turbulence

S. L. Haire, W. C. Reynolds, S. C. Kassinos (Stanford University)

15:15 Fc.01 Direct Numerical Simulation of Compressible Round Jets

Ram M. Rao, T.S. Lundgren (University of Minnesota)

15:28 Fc.02 Planar Velocity Measurements in Mixing-Enhanced Compressible Shear Layers

S. Watanabe (National Aerospace Laboratory of Japan), M.G. Mungal (Stanford University)

15:41 Fc.03 Large-Eddy Simulation of Supersonic Axisymmetric Bluff Body Wakes

D. Tourbier, H.F. Fasel (University of Arizona)

15:54 Fc.04 Velocity Field Measurements in Compressible Mixing Layers

W. D. Urban, M. G. Mungal (Stanford University)

16:07 Fc.05 Weakly compressible description of compressible turbulent boundary layers

Stanislav Borodai, Robert Moser (Dept. of Theoretical and Applied Mechanics, University of Illinois at Urbana-Champaign)

16:20 Fc.06 Direct Numerical Simulation of Supersonic Turbulent Boundary Layers

Stephen Guarini (Stanford), Robert Moser (University of Illinois), Karim Shariff, Alan Wray (NASA Ames)

16:33 Fc.07 DNS of Mixing in Compressible Turbulent Shear Layers

Carlos Pantano, Sutanu Sarkar (University of California, San Diego)

16:46 Fc.08 A Dominant Mode Approximation for Turbulent Vorticity Growth in a Supersonic Free Shear Layer

E.-D. Mezonlin, U. P. De Silva, J. A. Johnson III (CeNNAs, Florida A&M Univ.), J. C. Orou (IMSP, Univ. du Benin)

16:59 Fc.09 On the Mach Number Dependence of Turbulent Wake Transition

H.H. Legner (Physical Sciences Inc.)

17:12 Fc.10 Large Eddy Simulation of a Compressible Boundary Layer Flow

Daniel M. Israel, Hermann Fasel (University of Arizona)

15:15 Fd.01 Absolute Instability in Variable-Density Swirling Jets

David W. Lim, Larry G. Redekopp (University of Southern California)

15:28 Fd.02 Low Frequency Unsteadiness in the Wake of a Normal Flat Plate

Fady Najjar (), S. Balachandar (University of Illinois, Urbana-Champaign)

15:41 Fd.03 A Spatial-Temporal Map for Three-Dimensional Wake Effects

David J. Olinger (Worcester Polytechnic Institute)

15:54 Fd.04 Chaos Control in the Wake of an Oscillating Cylinder

Ganapathi R. Balasubramanian, David J. Olinger (Worcester Polytechnic Institute)

16:07 Fd.05 Numerical Simulations of Flow Instabilities in the Plane Wake at M=2.46

P. J. Harris, H.F. Fasel (University of Arizona)

16:20 Fd.06 Study of Supersonic Jet Instability Using PSE

Chau-L. Chang, Mujeeb R. Malik (High Technology Corp.)

16:33 Fd.07 Image of absolute instability in a liquid jet

I. Vihinen, A. M. Honohan, S. P. Lin (Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY 13699)

16:46 Fd.08 Spatial Structure of the Periodic Mode in the Wake of a Sphere

Provansal Michel, Ormieres Delphine, Barrantes Analia (IRPHE Saint-Jerome U.M.R. 6944 CNRS 13397 Marseille Cedex20 FRANCE)

16:59 Fd.09 The path instabilities of air bubbles rising in a bulk fluid

Mingming Wu (Physics Department, Occidental College), Mory Gharib (Aeronautical Laboratories, California Institute of Technology)

17:12 Fd.10 The wake structures of the air bubbles rising in a Hele-Shaw cell

Eric Moskun, Mingming Wu (Physics Department, Occidental College), Mehrdad M. Zarandi (Aeronautical Laboratories, California Institute of Technology)

15:15 Fe.01 Weakly nonlinear stability of parallel two-phase flow: application to experiments

Paul A.M. Boomkamp (Shell Research Amsterdam, P.O. Box 38000, 1030 BN Amsterdam, The Netherlands)

15:28 Fe.02 Regular time-modulation of KS-like chaotic evolutions of a film interface.

Alexander L. Frenkel, David Halpern (University of Alabama, Tuscaloosa), James B. Grotberg (Northwestern University, Evanston.)

15:41 Fe.03 Energy budget in a liquid film flow

J. N. Chen, S. P. Lin (Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY 13699)

15:54 Fe.04 Elimination of three dimensional wave in a film flow

S. P. Lin, J. N. Chen (Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY 13699)

16:07 Fe.05 Instability of a Soap Film Under Spatially Periodic Forcing

John M. Burgess, W. D. McCormick, Harry L. Swinney (Center for Nonlinear Dynamics, The University of Texas at Austin)

16:20 Fe.06 Thickness and velocity measurements of flowing soap films

Robert Ecke, Michael Rivera, Peter Vorobieff (Los Alamos National Laboratory)

16:33 Fe.07 Electromagnetic Convection in a Free Standing Soap Film

Michael Rivera, Xiao-Lun Wu, Walter Goldburg (University of Pittsburgh)

16:46 Fe.08 Thermocapillary Convection at the Interface of Two Liquids\bullet

Stephen J. Van Hook (Center for Nonlinear Dynamics, The University of Texas, Austin, TX 78712), Carrie Andre (The Cooper Union, New York, NY), W. D. McCormick, J. B. Swift, Harry L. Swinney (Center for Nonlinear Dynamics, The University of Texas at Austin)

16:59 Fe.09 Capillary Waves on Thin Planar Liquid Sheets

Carsten Mehring, William A. Sirignano (UC Irvine)

17:12 Fe.10 Low and High Reynolds Number Flows Inside Taylor Cones

A. Barrero, A.M. Gañán-Calvo, J. Dávila, E. Gómez-González (Universidad de Sevilla)

15:15 Ff.01 Interaction of Dual-particle Settling Under Gravity

Jie Wu, Richard Manasseh (CSIRO, Advanced Fluid Dynamics Laboratrary, Highett 3190, Australia)

15:28 Ff.02 Influence of background turbulence on the settling velocity of heavy particles.

A. Srdic--Mitrovic, H. J. S. Fernando (Arizona State University)

15:41 Ff.03 Experimental investigation of the sedimentation of small particles througth the two-dimensional plane mixing layer

Thomas M. Dreier, M. Virant, W. Kinzelbach (ETH-Zurich)

15:54 Ff.04 Particle transport in a vortical flow in a cylinder with one end wall rotating.

David J. Schmidt, Goodarz Ahmadi, Daniel T. Valentine (Clarkson University)

16:07 Ff.05 Dispersion and Accumulation of Small, Heavy Particles in a Three-Dimensional Time-Developing Mixing Layer

Bogdan Marcu, Eckart Meiburg (U. of Southern California)

16:20 Ff.06 Cinemagraphic PIV in the Closure Region of Partial Attached Cavitation

Kathryn Laberteaux, Steven Ceccio (University of Michigan)

16:33 Ff.07 Splitting and dispersion of bubbles by turbulent flows

Carlos Martinez-Bazan, Juan C. Lasheras (University of California, San Diego)

16:46 Ff.08 Large Eddy Simulation of Particle-Laden Turbulence with Two-Way Coupling

Kyle D. Squires (Arizona State University), Olivier Simonin (Institut de Mécanique des Fluides / INPT), Marc Boivin (Laboratoire National d\'\,Hydraulique / EDF)

16:59 Ff.09 DNS of Bubble-Laden Turbulent Flows Using the Two-Fluid Formulation

S. Elghobashi, O. Druzhinin (University of California, Irvine)

17:12 Ff.10 New Approaches to the Direct Numerical Simulation of Particle-Laden Flows

John K. Eaton (Mechanical Engineering Dept., Stanford University, Stanford, CA), Damian W. I. Rouson (Failure Analysis Associates, Menlo Park, CA)

15:15 Fg.01 Infrared imaging of sub-surface wake and thermal boundary layer interactions.

G.B. Smith, R.I. Leighton (Naval Research Laboratory), S. Tang (University of Delaware)

15:28 Fg.02 Infrared imagery of wind waves

R. I. Leighton, G. B. Smith (Naval Research Laboratory), S. Chen (University of Delaware)

15:41 Fg.03 Turbulent Kinetic Energy Transport in a Mixed Boundary Corner

T. Hsu, T. Wei (Rutgers Univ.), R.I. Leighton (NRL)

15:54 Fg.04 Wave Generation in Flows over Curved Surfaces

Shilpa Shroff, Dorian Liepmann (University of California, Berkeley)

16:07 Fg.05 Theory and experiments related to the spreading of solidifying melts

Peter Ehrhard, Michael Bunk (Forschungszentrum Karlsruhe, Institut für Angewandte Thermo- und Fluiddynamik)

Fg.06 WITHDRAWN - Energy Stability of Thermocapillary Convection in Deformed Liquid Bridges

Loren B.S. Sumner, G. Paul Neitzel (Georgia Institute of Technology)

16:33 Fg.07 Non-Coalescence and Wetting Suppression via Thermocapillarity

G.P. Neitzel, J.C. Nalevanko (Georgia Institute of Technology), P. Dell'Aversana, D. Castagnolo, V. Tontodonato (MARS Center, Naples, Italy)

16:46 Fg.08 Air Entrainment in a Liquid Cell due to Fiber Drawing

P. G. Simpkins (), V. J. Kuck (Bell Laboratories, Murray Hill, NJ 07974)

16:59 Fg.09 Surface Active Films Spreading on a Thick Liquid Support - Boundary Layer Modifications in the Presence of Evaporation

Sandra M. Troian, Anne D. Dussaud (Dept. of Chem. Eng.), Scott R. Harris (Dept. of Mech. Eng., Princeton Univ., Princeton, NJ 08544)

17:12 Fg.10 Surfactant Effects on Capillary Wave Gas Exchange

J. R. Saylor, R. A. Handler (Naval Research Laboratory)

15:15 Fh.01 Lagrangian Transport in Flows with Aperiodic Time-Dependence

Naresh Malhotra, Steve Wiggins (Caltech)

15:28 Fh.02 Lagrangian Trajectory Analysis in Fluid Flows Using Patchiness

Naresh Malhotra (Caltech), Igor Mezi\'c (University of California at Santa-Barbara), Steve Wiggins (Caltech)

15:41 Fh.03 Geometry of cross-stream Lagrangian mixing in a double gyre ocean model.

A. C. Poje, G. Haller (Division of Applied Mathematics, Brown University)

15:54 Fh.04 Particle Dispersion in Rotating Stratified Turbulence

Yoshi Kimura (Nagoya Univ. amp; NCAR), Jackson R. Herring (NCAR)

16:07 Fh.05 Entrainment across a stratified interface from a tilted, impinging jet

A.J. Cotel (University of Manitoba), R.E. Breidenthal (University of Washington)

Fh.06

16:20 Fh.07 Small Scale Turbulence Measurements in Shallow Florida Waters.

Manhar R. Dhanak, Ken Holappa

16:33 Fh.08 Dynamics of a vertical vortex pair in a strongly stratified fluid

Paul Billant, Jean-Marc Chomaz (\urllinkLadHyXhttp://www.ladhyx.polytechnique.fr, CNRS UMR 156, École Polytechnique, 91128 Palaiseau Cedex, FRANCE)

16:46 Fh.09 Secondary Instabilities in the Stress--Driven Ekman Layer

T.M. Haeusser, S. Leibovich (Cornell University)

16:59 Fh.10 A consistent set of lower boundary conditions for ocean mixed layer computations

Gregory P. Chini, S. Leibovich (Cornell University)

15:15 Fi.01 Instabilities, Fingering and the Saffman Taylor Problem in Filtration Combustion

B.J. Matkowsky (Northwestern U.), A. P. Aldushin (Russian Academy of Sciences)

15:28 Fi.02 Turbulent Mixing Effects in NO_x Control via Reburning

C.M. Cha, G. Kosály, J.C. Kramlich (University of Washington)

15:41 Fi.03 PDF Calculations of Piloted CH_4 Flames

Vivek Saxena, Stephen B. Pope (Cornell University)

15:54 Fi.04 Flame-Turbulence Interaction in Homogeneous Flows

C.K. Madnia, F.A. Jaberi (SUNY-Buffalo)

16:07 Fi.05 Nonpremixed Exothermic Reaction of A and B

Jr. Reed, Sherice Y. Pace (), Jeffrey J. Randick (ChE, UMR)

16:20 Fi.06 A Coupled Eulerian--Lagrangian Model for Reacting Flow

B. Milne, K. Devine, S. Kempka, H. Najm (Sandia National Laboratories)

16:33 Fi.07 A Numerical Simulation of Reactive Flow Associated with a Lobed Fuel Injector

A. R. Karagozian, T. Selerland (UCLA)

16:46 Fi.08 An Experimental Study of Reactive Flow Associated with a Lobed Fuel Injector

M. G. Mitchell, O. I. Smith, A. R. Karagozian (UCLA)

16:59 Fi.09 Numerical Investigation of a Statistically Stationary Turbulent Reacting Flow

Matthew R. Overholt, Stephen B. Pope (Cornell University)

17:12 Fi.10 Persistence of Strain in Buoyant and Nonbuoyant Turbulent Nonpremixed Flames

O. Boratav, S. Elghobashi, R. Zhong (University of California, Irvine)

15:15 Fj.01 Measurement of Three-Dimensional Turbulent Statistics Using a Single 2-D PIV System

Thomas Gieseke (NUWC), B. Engin Arik (Dantec)

15:28 Fj.02 Pressure Sensitive Paint Measurements at Low Speed

Owen C. Brown, Brian J. Cantwell (Stanford University), Rabi Mehta (NASA Ames Research Center)

15:41 Fj.03 Accuracy of Out-of-plane Vorticity Distributions Calculated From 2D Planar Velocity Fields

J. Soria, A. Fouras (Monash University, AUSTRALIA)

15:54 Fj.04 Vorticity Calculation with Spectral Methods in the Processing of PIV Data

S. Dong, J. Sheng, H. Meng (Laser Flow Diagnostics Lab, Mechanical Engineering Department, Kansas State University)

16:07 Fj.05 Determination of velocity moments using a spectral method

Lennart Löfdahl (Thermo and Fluid Dynamics, Chalmers University of Technology), Jöran Bergh (Department of Mathematics, Chalmers University of Technology), Bert Johansson (Thermo and Fluid Dynamics, Chalmers University of Technology)

16:20 Fj.06 3D Continuum Motion Analysis System

Deusch Stefan, Rys Paul, Dracos Themistocles (ETH-Zurich)

16:33 Fj.07 Whole Field Measurement of Temperature in Water Using Two-Color Laser Induced Fluorescence

Jun Sakakibara (Institute of Engineering Mechanics, University of Tsukuba, Tsukuba 305, Japan), Ronald Adrian (Department of Theoretical and Applied Mechanics, University of Illinois at Urbana-Champaign, IL61801)

16:46 Fj.08 Optical technique for the areal measurement of surfactant concentration as applied to a monolayer downstream of a Reynolds ridge.

G. M. Korenowski, A. Hirsa, E. Van Wagenen, H. J. Jin (Rensselaer Poly. Inst.)

16:59 Fj.09 Visualization of Scalar Convection and Diffusion in Liquid Microchannel Flows

Joshua I. Molho, M.G. Mungal, Thomas W. Kenny (Stanford University), Michael G. Garguilo, Phillip H. Paul (Sandia National Laboratories)

17:12 Fj.10 Imaging of Pressure- and Electrokinetically-Driven Liquid Flow in Open Capillaries

Phillip H. Paul, Michael G. Garguilo, David J. Rakestraw (Sandia National Laboratories)