Program overview

SUNDAY AFTERNOON, 21 NOVEMBER 2004

14:45 DA.001 Numerical Simulation of Flow in Anatomically Realistic Total Cavo-Pulmonary Connections

Anvar Gilmanov, Liang Ge, Chang Wang, Diane de Zelicourt, Kerem Pekkan, Fotis Sotiropoulos, Ajit P. Yoganathan (Georgia Institute of Technology)

14:58 DA.002 Motion of a Non-Newtonian Fluid in the Wake of a Flat Plate

Min Zhou, Foluso Ladeinde, Danny Bluestein (SUNY Stony Brook, New York, USA)

15:11 DA.003 Flow in a Bileaflet Mechanical Heart Valve at Near Peak Systole Reynolds Number

Liang Ge, Josie Carberry, Hwa-Liang Leo, Fotis Sotiropoulos, Ajit P. Yoganathan (Georgia Institute of Technology)

15:24 DA.004 PIV and MRV Measurements in Human Thoracic Aorta Phantoms

Ananth Iyengar (W.M. Keck Biomedical Lab, Mechanical and Industrial Engineering Dept., University of Texas at El Paso), Christopher Elkins, Mary Draney (Mechanical Engineeering department, Stanford University), Francisco Medina, Ryan Wicker (W.M. Keck Biomedical Lab, Mechanical and Industrial Engineering Dept., University of Texas at El Paso)

15:37 DA.005 Blood Flow Characterization According to Linear Wall Models of the Carotid Bifurcation

Shobha Williamson, Vitaliy Rayz, Stanley Berger (University of California, Berkeley), David Saloner (University of California, San Francisco)

15:50 DA.006 Experimental Studies of Unsteady Flow through Compliant Vessels

Victoria Sturgeon, William Tsai (University of California, Berkeley), David Saloner (University of California, San Francisco), Omer Savas (University of California, Berkeley)

16:03 DA.007 Experimental Studies of Two Replicated Atherosclerotic Carotid Bifurcations

Jocelyn Bale-Glickman (University of California, Berkeley), Kathy Selby, David Saloner (University of California at San Francisco), Omer Savas (University of California, Berkeley)

16:16 DA.008 Fabricating mesostructed thin films by Marangoni and rheology effects

Chang Lee, Amy Shen (Washington University in St. Louis)

14:45 DB.001 Multiscale analysis of turbulent Couette-Poiseuille flow

Tie Wei (University of Utah)

14:58 DB.002 LES study on turbulence structures in boundary layer flow over three-dimensional roughness elements

Kojiro Nozawa (Simizu Corporation), Tetsuro Tamura (Tokyo Institute of Technology)

15:11 DB.003 DNS of Hypersonic Turbulent Boundary Layers

M. Pino Martin (Princeton University)

15:24 DB.004 Reynolds number trends from DNS of the turbulent Ekman layer

G.N. Coleman (School of Engineering Sciences, University of Southampton, UK), R. Johnstone, M. Ashworth (CCLRC Daresbury Laboratory, UK)

15:37 DB.005 Comparison of Experiment with DNS in Mach 3 Shock Wave Turbulent Boundary Layer Interactions

Patrick Bookey, Minwei Wu, M. Pino Martin, Alexander Smits (Mechanical and Aerospace Engineering, Princeton University)

15:50 DB.006 Tripping Effects on the Friction Factor in Turbulent Pipe Flows

A. Al-Salaymeh, O. A. Bayoumi (University of Jordan, Jordan), F. Durst (Friedrich Alexander Universität Erlangen-Nürnberg, Germany), M. Gad-el-Hak (Virginia Commonwealth University, U.S.A.)

16:03 DB.007 Large Eddy Simulation of Multi Phase Flow inside Solid Rocket Chamber

Bono Wasistho, Fady Najjar, Andreas Haselbacher (Center for Simulation of Advanced Rockets, 2232 Digital Computer Laboratory, MC-278, University of Illinois at Urbana-Champaign, 1304 West Springfield Avenue, Urbana, IL 6180)

16:16 DB.008 Flow Control for Enhanced Aero-Optic Performance in Turbulent Boundary Layers

Christopher Wyckham, Richard Miles, Alexander Smits (Mechanical and Aerospace Engineering, Princeton University), Sivaram Gogineni (Innovative Scientific Solutions, Inc., Dayton OH)

14:45 DC.001 Dean vortex formation in millimeter-scaled channels

David Mott (Laboratory for Computational Physics and Fluid Dynamics, Naval Research Laboratory), Peter Howell (Center for Biomolecular Science and Engineering, Naval Research Laboratory)

14:58 DC.002 Electrohydrodynamic stability in a microfluidic channel

Nadine Aubry, Fu Li, Demetrios Papageorgiou, Peter Petropoulos (New Jersey Institute of Technology)

15:11 DC.003 Convective Instabilities of Electrokinetic Flows in a Cross-Shaped Microchannel

Jonathan Posner, Juan Santiago (Stanford University)

15:24 DC.004 Analytical modeling of fluid flow with electrokinetic behavior in parallel plate microchannel

Abhishek Jain, Michael K. Jensen (Dept. of Mechanical, Aerospace and Nuclear Engineering (MANE), Rensselaer Polytechnic Institute, New York)

15:37 DC.005 A Depth-Averaged Model for Electrokinetic Flows in Thin Microchannels

Hao Lin (Mechanical Engineering Department, Stanford Unversity, Stanford, CA 94305), Brian D. Storey (Franklin W. Olin College of Engineering, Needham, MA 02492), Michael H. Oddy, Juan G. Santiago (Mechanical Engineering Department, Stanford University, Stanford, CA 94305)

15:50 DC.006 Simultaneous Velocity and Temperature Measurements in Electroosmotically Driven Flow in a Microchannel using Molecular Tagging Velocimetry and Thermometry

Chee Lum (Michigan State University), Hui Hu (Iowa State University), Manoochehr Koochesfahani (Michigan State University)

16:03 DC.007 Fluid and Kinetic Plasma Dynamics in Micro-Channels

Erich Kunhardt, Siva Thangam (Stevens Institute of Technology)

16:16 DC.008 Lattice Boltzmann Computations of Micro Channel and Micro Orifice Flows

Frank Chambers, Ignacio Zea Caloca (Oklahoma State University)

14:45 DD.001 Vorticity statistics of bounded two-dimensional turbulence

H.J.H. Clercx, D. Molenaar, GertJan van Heijst (Physics Department, Eindhoven University of Technology, Eindhoven, The Netherlands)

14:58 DD.002 Scale-dependence of anisotropy in low-Rm MHD turbulence

Oleg Zikanov, Anatoly Vorobev (University of Michigan - Dearborn), Andre Thess (Ilmenau University of Technology), Peter Davidson (University of Cambridge), Bernard Knaepen (Université Libre de Bruxelles)

15:11 DD.003 Variable Transport Property Effects on Three-Dimensional Compressible MHD Turbulence

Datta Gaitonde (AFRL/VAAC, Wright-Patterson AFB), Foluso Ladeinde (SUNY Stony Brook, USA)

15:24 DD.004 Simultaneous space-time adaptive wavelet solution of turbulence

Jahrul Alam (Mr.), Nicholas Kevlahan, Oleg Vasilyev, Dan Goldstein (Dr.)

15:37 DD.005 Coherent vortex extraction in homogeneous isotropic turbulence using wavelets: orthogonal versus biorthogonal decompositions

Marie Farge (Laboratoire de Météorologie Dynamique du CNRS, Ecole Normale Supérieure, Paris, France), Olivier Roussel (Institut für Chemische Technik, University at Karlsruhe, Germany), Kai Schneider (Laboratoire de Modélisation et Simulation Numérique en Mécanique du CNRS amp; Centre de Mathématiques et d'Informatique, Université de Provence, Marseille, France)

15:50 DD.006 Wavelet Representation of Energy Transfer in Turbulent Channel Flow

Vivek Joshi, Dietmar Rempfer (Illinois Insitute of Technology)

16:03 DD.007 Direct Numerical Simulation of a High-Fr Turbulent Open-Channel Flow

Yoshinobu Yamamoto (Department of Energy Engineering and Science, Nagoya University), Tomoaki Kunugi (Department of Nuclear Engineering, Kyoto University)

16:16 DD.008 Noise Prediction of Heated and Unheated Turbulent Jets

Daniel Bodony (Department of Aeronautics and Astronautics, Stanford University), Sanjiva Lele (Departments of Mechanical Engineering and Aeronautics and Astronautics, Stanford University)

14:45 DE.001 Instability of a micrometric fluid strip under controlled initial conditions

Javier Diez, Juan M. Gomba, Alejandro G. González, Roberto Gratton (Instituto de Física Arroyo Seco, Universidad Nacional del Centro de la Provincia de Buenos Aires, Pinto 399, 7000, Tandil, Argentina)

14:58 DE.002 Stability of surfactant-covered thin liquid films flowing down an inclined plane

Barry Edmonstone (Dept. of Chemical Engineering, Imperial College London), Richard Craster (Dept. of Mathematics, Imperial College London), Omar Matar (Dept. of Chemical Engineering, Imperial College London)

15:11 DE.003 Fingering phenomena in thin liquid films with soluble surfactant

Mark Warner, Richard Craster (Dept. of Mathematics, Imperial College London), Omar Matar (Dept. of Chemical Engineering, Imperial College London)

15:24 DE.004 Low Reynolds number instabilities in three-layer flow down an inclined wall

Weiyuan Jiang, Brian Helenbrook, Sung Lin (Clarkson University), Steven Weinstein (Eastman Kodak)

15:37 DE.005 Re-examining the dynamics of a thin film falling down a heated wall

Philip Trevelyan (Department of Chemical Engineering, Imperial College, London SW7 2AZ, UK), Benoit Scheid (Service de Chimie-Physique E.P., Universite Libre de Bruxelles, C.P. 165/62, 1050 Brussels, Belgium), Christian Ruyer-Quil (Laboratoire FAST, UMR 7608, CNRS, Universites P. et M. Curie et Paris Sud, Bat. 502, Campus Universitaire, 91405 Orsay Cedex, France), Serafim Kalliadasis (Department of Chemical Engineering, Imperial College, London SW7 2AZ, UK)

15:50 DE.006 Meandering rivulet on a partially wetting inclined substrate

Nolwenn Le Grand, Adrian Daerr, Laurent Limat (Laboratoire PMMH - UMR 7636 of CNRS, ESPCI, 10 rue Vauquelin, 75231 Paris Cedex 05, France)

16:03 DE.007 Interaction of three-dimensional waves in thin films

Sergey Saprykin (Department of Chemical Engineering, Imperial College, London SW7 2AZ, UK), Serafim Kalliadasis (Department of Chemical Engineering, Imperial College, London, SW7 2AZ, UK)

16:16 DE.008 Braiding patterns on an inclined plane

Keith Mertens, Vakhtang Putkaradze, Peter Vorobieff (The University of New Mexico)

14:45 DF.001 Cavitating Hydrofoils: A Perspective

Roger E.A. Arndt, Damien T. Kawakami, Qiao Qin, Charles C.S. Song (St. Anthony Falls Laboratory, University of Minnesota)

14:58 DF.002 Low-Drag Cavitating Hydrofoils

Eduard Amromin (Mechmath LLC), Roger E.A. Arndt, James Kopriva, Martin Wosnik (St. Anthony Falls Laboratory, University of Minnesota)

15:11 DF.003 The inception of leading-edge cavitation on thin hydrofoils

Wallace J. II Morris, Zvi Rusak, Yoav Peles (Rensselaer Polytechnic Institute)

15:24 DF.004 Control of a Cavitating Jet Emanating from a Nozzle of Indeterminate Origin

Stephane Poussou (Purdue University), Michael Plesniak (Purdue University, National Science Foundation)

15:37 DF.005 Numerical Modeling of Natural Cavitating Flows with the Effect of Incondensable Gas

Qiao Qin, Charles C.S. Song, Roger E.A. Arndt (St. Anthony Falls Laboratory, University of Minnesota)

15:50 DF.006 Periodicity of Sheet/Cloud Cavitation

Damien T. Kawakami, Qiao Qin, Roger E.A. Arndt (St. Anthony Falls Laboratory, University of Minnesota)

16:03 DF.007 PIV measurements in high void-fraction turbulent axisymmetric bubbly wakes

Lucas Gomez Fontecha (Chalmers University of Technology), Martin Wosnik, Roger E.A. Arndt (University of Minnesota)

16:16 DF.008 EXPERIMENTAL VALIDATION OF BEM CODE ANALYSIS OF BUBBLE SPLITTING IN A TIP VORTEX FLOW

Steven Ceccio, Marek Rebow, Jaehyug Choi (University of Michigan, Ann Arbor), Jin-Keun Choi, Georges Chahine (DYNAFLOW, INC.)

14:45 DG.001 Transverse Jet Shear Layer Instabilities: Experimental Studies

Sevan Megerian, Ann Karagozian (UCLA)

14:58 DG.002 Transverse Jet Shear Layer Instabilities: Theory and Computations

Leonardo Alves, Robert Kelly, Ann Karagozian (UCLA)

15:11 DG.003 The entrainment behavior of a turbulent axisymmetric jet in a viscous host fluid

Sudhaker Chhabra, Thomas Shipman, Ajay Prasad (Department of Mechanical Engineering, University of Delaware, Newark, DE 19711)

15:24 DG.004 Linear Stability of a Compressible Coaxial Jet with Continuous Velocity and Temperature Profiles

Sherwin Maslowe, Dominique Perrault-Joncas (Department of Mathematics, McGill University)

15:37 DG.005 Active mixing control in a coaxial-jet

K. Angele, N. Kurimoto, Y. Suzuki, N. Kasagi (Turbulence and Heat Transfer Lab., Dep. of Mech. Eng., The University of Tokyo, Hongo 7-3-1, Bunkyo-ku, 113-8656, Japan)

15:50 DG.006 Dynamics of a jet in a coflowing soap film

Adam Cone (Applied Math Lab, Courant Institute, NYU and Math Dept, UCLA), Nicolas Vandenberghe (Applied Math Lab, Courant Institute, NYU), Jun Zhang (Applied Math Lab, Courant Institute, and Physics Dept, NYU)

16:03 DG.007 Self-sustained oscillations in variable-density jets

Joseph W. Nichols, Peter J. Schmid, James J. Riley (University of Washington)

16:16 DG.008 The stability of rotating jets

Nikos Savva, John W. M. Bush (Department of Mathematics, Massachusetts Institute of Technology)

14:45 DH.001 Objective decomposition of the stress tensor in granular flows

Shankar Subramaniam (Mechanical Engineering, Iowa State University), Donghong Gao (Ames Laboratory)

14:58 DH.002 First-order phase transition and the equation of state in a 2D granular fluid

Mark Shattuck (City College, CUNY)

15:11 DH.003 A two-phase model for compressible flows of granular mixtures basedamp;oslash;n non-equilibrium thermodynamics.

Miltiadis V. Papalexandris (Departement de Mecanique, Universite catholique de Louvain, 1348 Louvain-la-Neuve, Belgium)

15:24 DH.004 Mach Cone in a shallow granular fluid

Erin Rericha (The University of Texas at Austin), Patrick Heil (University of Heidelberg), Daniel I. Goldman (University of California at Berkeley), Harry L. Swinney (University of Texas at Austin)

15:37 DH.005 The maximum angle of stability and angle of repose of wet granular materials

S.A. Nowak, A. Samadani (Dept. of Physics, MIT), A. Kudrolli (Dept. of Physics, Clark University)

15:50 DH.006 Two mechanisms for avalanche dynamics in inclined granular layers

Tamas Borzsonyi, Robert Ecke (Los Alamos National Laboratory)

16:03 DH.007 Rapid Relaxation of a Granular Step

Saloome Siavoshi, Arshad Kudrolli (Clark University)

16:16 DH.008 Creeping Motion in Granular Flow

Benjamin A. Socie, Paul B. Umbanhowar, Richard M. Lueptow, Nitin Jain, Julio M. Ottino (Northwestern University)

14:45 DJ.001 Approximate Deconvolution Boundary Conditions for Large Eddy Simulation

Traian Iliescu, Jeff Borggaard, Alexey Miroshnikov, Grant Boquet (Virginia Tech, Department of Mathematics)

14:58 DJ.002 Physically Optimized Implicit LES

S. Hickel, N.A. Adams (TU Dresden), J.A. Domaradzki (USC), TU Dresden Collaboration, USC Collaboration

15:11 DJ.003 Unified turbulence models: From FDF to PDF, from LES to RANS

Stefan Heinz (University of Wyoming, Department of Mathematics, 1000 East University Avenue, Laramie, WY 82071, USA)

15:24 DJ.004 A Numerical Study of Near-Field Dispersion within and above Forest Canopies

Steven Edburg, David Stock, Brian Lamb (Washington State University), Harold Thistle (U.S.D.A. Forest Service)

15:37 DJ.005 A-priori dynamic study of subgrid-scale energy transfer in large eddy simulation

Giuliano De Stefano (Seconda Universita' di Napoli (Italy)), Daniel E. Goldstein, Oleg V. Vasilyev (University of Colorado-Boulder)

15:50 DJ.006 Is optimal model `optimal' for Burgers turbulence?

Jiwoong Choi, Noma Park, Jung Yul Yoo (Seoul National University)

16:03 DJ.007 Evaluation of a multifractal model for the LES of a filtered passive-scalar field

Gregory C. Burton (Center for Turbulence Research, Stanford University)

16:16 DJ.008 Investigation of conditional SGS scalar flux and its production rate using measurements

Qinglin Chen, Chenning Tong (Clemson University)

14:45 DK.001 Buoyancy Effects in Strongly-Pulsed, Turbulent Diffusion Flames

James Hermanson (University of Washington), Hamid Johari (Worcester Polytechnic Institute), Dennis Stocker, Uday Hegde (NASA Glenn Research Center)

14:58 DK.002 Interaction of a vortex ring propelled non-premixed flame with an inert wall

Nidheesh Bharadwaj, Cyrus K. Madnia (University at Buffalo)

15:11 DK.003 Nonpremixed Combustion in a Transitional Flow Under Strong Pressure Gradient

Feng Liu (University of California, Irvine), Felix C. Cheng, William A. Sirignano

15:24 DK.004 Doubly conditional moment closure modeling of a jet nonpremixed flame with significant extinction and reignition

Robert W. Bilger (The University of Sydney), Carlos Pantano (Caltech)

15:37 DK.005 An Extended Flamelet/Progress Variable Method for LES of Nonpremixed Turbulent Combustion

Matthias Ihme, Heinz Pitsch (Department of Mechanical Engineering, Stanford University)

15:50 DK.006 Adaptive resolution LES of a reacting non-premixed jet

Carlos Pantano, Ralf Deiterding, David Hill, Dale Pullin (Caltech)

16:03 DK.007 Hybrid LES/FDF Simulation of a Non-Premixed Bluff-Body Stabilized Flame

Venkatramanan Raman, David Cook, Heinz Pitsch (Center for Turbulence Research, Stanford University)

16:16 DK.008 Large Eddy Simulation of Swirling and Reacting Flows in a Dump Combustor

Devkinandan Tokekar, Karman Ghia, Urmila Ghia (University of Cincinnati)

14:45 DL.001 Flow Field Characteristics of a Pulsed Jet - A PIV Study

Mehmet Alkislar, Isaac Choutapalli, Anjaneyulu Krothapalli, Luiz Lourenco (FAMU/FSU College of Engineering)

14:58 DL.002 A Presumed PDF Method For Evaporating Droplets and Sprays

Sandip Ghosal (Northwestern University), Sourabh Apte (Stanford University)

15:11 DL.003 Metal-Particle Deposition onto Metal Surfaces at High Speeds

Sang-wook Kang (Lawrence Livermore National Laboratory)

15:24 DL.004 Lattice Boltzmann pore-scale model for multi-component reactive transport

Qinjun Kang, Peter Lichtner (Los Alamos National Laboratory), Dongxiao Zhang (University of Oklahoma), Ioannis Tsimpanogiannis (Los Alamos National Laboratory)

15:37 DL.005 Waterspout as a result of the ocean skeletal structures

Valentin A. Rantsev-Kartinov (Russian Research Center, Kurchatov Institute)

15:50 DL.006 Particle Tracking of Segregating Granular Mixtures in a Rotating Drum

K.M. Hill, J. Zhang (Dept. of Theoretical and Applied Mechanics, University of Illinois)

16:03 DL.007 Development of a Fiber-Optic Based PIV System for Turbomachinery Applications

Jordi Estevadeordal, Terrence R. Meyer, Sivaram Gogineni (Innovative Scientific Solutions Inc.; Dayton, OH), Marc D. Polanka, James R. Gord (Air Force Research Laboratory; WPAFB, OH)

16:16 DL.008 Evaluation of Mixing Efficiency of a Novel Oscillatory Flow Mixer

Thomas Shipman, Ajay Prasad (Department of Mechanical Engineering, University of Delaware, Newark, DE 19716), Scott Davidson, Donald Cohee (ILC Dover Inc., Frederica, DE 19946)

16:29 DL.009 Wave-like instabilities in an aquatic grass bed

Amala Mahadevan (Boston University)

14:45 DM.001 Simulation of the formation of particulate films created by Faraday waves

John R. Saylor (Clemson University), R. Glynn Holt (Boston University)

14:58 DM.002 Relaxation Oscillations in the Nearly Inviscid Faraday System

Edgar Knobloch (University of Leeds, UK), Maria Higuera (Polytechnic University of Madrid, Spain)

15:11 DM.003 Linear Stability of Impulsively Forced Faraday Waves

Mary Silber, Cristian Huepe (Department of Engineering Sciences and Applied Mathematics, Northwestern University, Evanston, Illinois 60208, USA)

15:24 DM.004 A Comparison Between Impulsive and Multi-frequency Forced Faraday Waves

Anne Catlla (Northwestern University), Chad Topaz (University of California Los Angeles), Mary Silber (Northwestern University)

15:37 DM.005 To Break or Not to Break: Parametrically Excited Interfacial Waves

David Hill (The Pennsylvania State University)

15:50 DM.006 The Internal Wave Field Generated by the Body and Wake of a Horizontally Moving Sphere in a Stratified Fluid

James Rottman (Naval Hydrodynamics Division, Science Applications International Corporation), Dave Broutman (Computational Physics, Inc.), Geoff Spedding, Patrice Meunier (Department of Aerospace and Mechanical Engineering, University of Southern California)

16:03 DM.007 Internal-wave breaking over obstacles

Olivier Eiff, Frederic Huteau (IMFT/CNRM), Jeremy Tolu (CNRM)

14:45 DN.001 Large eddy simulation of flow and mass exchange in a channel with an open cavity

KyoungSik Chang (KAIST, Korea), George Constantinescu (IIHR-Hydroscience and Engineering, The University of Iowa, Iowa City, IA 52242-1585, USA), Seung Park (Korea Advanced Institute of Science and Technology, Korea)

14:58 DN.002 Enhanced Separation Control via Simultaneous Dual-Location Forcing

David Greenblatt (Flow Physics and Control Branch, NASA Langley Research Center, Hampton VA 23681-2199)

15:11 DN.003 Feedback separation control using plasma actuators

Chuan He, Thomas Corke (University of Notre Dame), Mehul Patel, Zak Sowle (Orbital Research Inc.)

15:24 DN.004 Time Resolved PIV Measurements of a Plasma Actuator Discharge in Boundary Layer Flow Control

Jamey Jacob (University of Kentucky), Richard Anthony, Richard B. Rivir (AFRL, WPAFB)

15:37 DN.005 Electromagnetic control of flow separation: Scaling for different actuator orientations

Hamid Johari (WPI, Worcester, MA)

15:50 DN.006 Closed-Loop Feedback Control of the Turbulent Flow over a Wing

Jeremy Pinier, Julie Ausseur, Mark Glauser, Hiroshi Higuchi (Syracuse University)

16:03 DN.007 Effect of zero-net mass flow actuators on the flow over a NACA 4412 foil

M. Andino, C. Braud, M. Glauser, H. Higuchi (Syracuse University)

16:16 DN.008 Predicting the Dynamics of the Flow over a NACA 4412 using POD

Julie Ausseur, Jeremy Pinier, Mark Glauser, Hiroshi Higuchi (Syracuse University)

14:45 DP.001 Hydrogen Bubbles as PIV/ICV Tracers in Cylinder Shedding

Stuart Gilbert, Lorenz Sigurdson (Vortex Fluid Dynamics Lab, Mechanical Engineering Dept., University of Alberta)

14:58 DP.002 A combined cinematographic PIV and PLIF system for simultaneous measurements of velocity and concentration in turbulent flows

Shiyao Bian, Steven L. Ceccio (Dept. of Mechanical Engineering, University of Michigan), James F. Driscoll (Dept. of Aerospace Engineering, University of Michigan)

15:11 DP.003 He II thermal counterflow over a circular cylinder as observed by the PIV technique

Tao Zhang, Steven W. Van Sciver (National High Magnetic Field Laboratory, Florida State University)

15:24 DP.004 Velocity measurements in a turbulent shear flow using Magnetic Resonance Velocimetry

Christopher Elkins (Mechanical Engineering, Stanford University), Lars Saetran (Department of Energy and Process Technology, Norwegian University of Science and Technology), Marc Alley (Dept. of Radiology, Stanford University), John Eaton (Mechanical Engineering, Stanford University)

15:37 DP.005 The Influence of Peak-Locking Errors on Turbulence Statistics Computed from PIV Ensembles

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

15:50 DP.006 A technique to improve near wall resolution in PIV using cylindrical lenses - DMPIV

Vijay Somandepalli (Graduate Research Assistant, Stanford University), Godfrey Mungal (Professor, Stanford University)

16:03 DP.007 Use of Variable Thresholds in Post-Correlation PIV Outlier Correction

Adi Salehuddin, Dana Dabiri (University of Washington)

16:16 DP.008 Molecular Tagging Thermometry with Adjustable Temperature Sensitivity

Hui Hu (Department of Aerospace Engineering, Iowa State University, Ames, IA 50011), Manoochehr Koochesfahani (Department of Mechanical Engineering, Michigan State University, East Lansing, MI 48824)

16:29 DP.009 Refreshment Break