Session A
AA. Bio-Fluid Dynamics: Lungs
AB. Bio-Fluid Dynamics: Swimming
AC. Microfluidics: Drops, Bubbles, and Wetting I
AD. Cavitation and Bubble Dynamics
AE. Multiphase Bubbly Flows I
AF. Interfacial and Thin Film Instabilities I
AG. CFD I
AH. Reacting Flows I
AJ. Minisymposium: Foams: Linking the Mechanics of Fluids and Solids
AK. Acoustics I
AL. Free Surface Flows I
AM. Flows in Porous Media
AN. Separated Flows I
AP. Turbulence Modeling: LES I
AQ. Shear Layer Instabilities
AR. Turbulence Theory I
AS. Turbulent Jets and Wakes
AT. Turbulent Flow Control I
Session B
BA. Bio-Fluid Dynamics: Flight
BB. Microfluidics: Velocimetry
BC. Microfluidics: Drops, Bubbles, and Wetting II
BD. Bubble Breakup and Pinch-off
BE. Multiphase Particle-Laden Flows I
BF. Interfacial and Thin Film Instabilities II
BH. Reacting Flow II: Modeling
BJ. Granular Media: Shear Flow
BK. Acoustics II
BL. Free Surface Flows II
BM. Separated Flows II
BN. Atmospheric Dynamics
BP. Turbulence Simulations: DNS I
BQ. Turbulence Modeling: LES II
BR. Turbulent Boundary Layers: Thermal Effects
BS. Turbulent Shear Flows
BT. Turbulent Flow Control II
Session BG
BG. Vortex Dynamics I
Session C
CA. Welcome and Presentation of Awards and DFD Fellowships
CB. Otto Laporte Lecture
Session D
DA. Invited Lecture: Sedimentation of Particles: How Can Such a Simple Problem Be So Difficult?
DB. Invited Lecture: New Phenomena in Vortex-Induced Vibrations
Session E
EA. Bio-Fluid Dynamics: Pumps, Pumping, and Transport
EB. Bio-Fluid Dynamics: New Areas
EC. Microfluidics: Complex Fluids/Suspensions
ED. Drop Impact
EE. Multiphase Particle-Laden Flows II
EF. Surface Tension I
EG. CFD II
EH. Reacting Flows II
EJ. Minisymposium: Reduced-Order Modeling for Feedback Flow Control
EK. Suspensions I
EL. Free-Surface Flows III
EM. Separated Flows III
EN. Oceanography
EP. Turbulence Simulations: DNS II
EQ. Boundary Layer Instabilities I
ER. Turbulent Boundary Layers: High Reynolds Number
ES. Turbulent Scalar Mixing I
ET. General Stability I
Session F
FA. Collective Dynamics
FB. Hemodynamics I
FC. Microfluidics: Slip Flow
FD. Drop Formation and Dynamics
FE. Multiphase Particle-Laden Flows III
FF. Surface Tension II
FG. CFD III
FH. Reacting Flows III
FJ. Granular Media: Patterning & Mixing
FK. Suspensions II
FL. Convection and Buoyancy Driven Flows I
FM. Aerodynamics
FN. Rotating Flows
FP. Turbulence Simulations: General
FQ. Japan-US Minisymposium on Bio-Fluid Dynamics
FR. Turbulent Boundary Layers: Roughness Effects
FS. Turbulent Scalar Mixing II
FT. Taylor-Couette Flow
FV. Minisymposium: Polymeric Fluids in Simple Shear: From Interfacial Slip to Constitutive Discontinuity
Session G
GA. Hemodynamics II
GB. Liquid Breakup and Coalescence I
GC. Microfluidics: Mixing I
GD. Foams
GE. Multiphase Flows: Cavitation
GF. Hele-Shaw Flows: Interfacial & TFI
GG. Vortex Dynamics II
GH. Experimental Techniques: General I
GJ. Granular Media: Clusters and Shocks
GK. Viscous Flows I
GL. Waves I
GM. Rarefied Gas Dynamics
GN. Geophysical Flows I
GP. Turbulence Simulations: LES I
GQ. Jet Stability I
GR. Turbulent Boundary Layers: Structure & Pressure Gradient
GS. Turbulent Mixing
GT. Boundary Layer Instabilities II
GU. Convection and Buoyancy Driven Flows II
Session H
HA. Bio-Fluid Dynamics: Vocal and Oral
HB. Bio-Fluid Dynamics: Leukocyte Transport
HC. Microfluidics: Mixing II
HD. Liquid Breakup and Coalescence II
HE. Multiphase Flows: General I
HF. Surface Tension III
HG. General Fluid Dynamics I
HH. Experimental Techniques: Thermal Anemometry
HJ. Granular Media: Static and Near-Static Systems
HK. Non-Newtonian Flows I
HL. Waves II
HM. Compressible Flows
HN. Geophysical Flows II
HP. Turbulence Simulations: LES II
HQ. Jet Stability II
HR. Turbulent Boundary Layers: Drag Reduction
HS. Turbulence Theory II
HT. General Stability II: Pipe Flow
HU. Convection and Buoyancy Driven Flows III
Session J
JA1. Invited Lecture: Hydrodynamics Beyond the Navier-Stokes Description: Modeling and Simulation of Small Scale Flows
JB1. Invited Lecture: On the Origin of Small-Scale Intermittency in Turbulence
JA2. Invited Lecture: Global Ocean Circulation: An Elegant Dynamical System
JB2. Invited Lecture: Respiratory Fluid Mechanics
Session K
KA. Bio-Fluid Dynamics: Cells and Capsules
KB. Minisymposium: Fluid Transport in Nanotubes and Nanochannels
KC. Microfluidics: Numerical Studies
KD. Liquid Breakup and Coalescence III
KE. Multiphase Flows: General II
KF. Interfacial and Thin Film Instabilities III
KG. Vortex Dynamics III
KH. Experimental Techniques: Particle-Based Anemometry
KJ. Granular Media: Surface and Tumbling Flows
KK. Non-Newtonian Flows II
KL. General Fluid Dynamics II
KM. Materials Processing
KN. Geophysical Flows III
KP. Turbulence Simulations: DNS III
KQ. Wake Stability
KR. Turbulent Boundary Layers: General
KS. Compressible Turbulence
KT. Flow Control
KU. Convection and Buoyancy Driven Flows IV
Session L
LA. Bio-Fluid Dynamics: Aneurysms
LB. Bio-Fluid Dynamics: Creep, Crawl, Slither, Slide
LC. Microfluidics: Electrophoresis and Electroosmosis I
LD. Multiphase Bubbly Flows II
LE. Multiphase Flows: General III
LF. Interfacial and Thin Film Instabilities IV
LG. Vortex Dynamics IV
LH. Experimental Techniques: General II
LJ. Granular Media: General I
LK. Viscous Flows II
LL. Waves III
LM. Supersonic and Hypersonic Flows
LN. Geophysical Flows IV
LP. Turbulence Simulations: LES III
LQ. Jet Stability III
LR. Turbulent Boundary Layers: Dynamics
LS. Boundary Layer Instabilities III
LT. Rayleigh-Taylor Instability I
LU. Convection and Buoyancy Driven Flows V
Session M
MA1. Andreas Acrivos Dissertation Award Lecture
MA2. Invited Lecture: The Fluid Mechanics of Fire
MB1. Francois Frenkiel Award Lecture
MB2. Invited Lecture: Dynamics of Premelted Liquid Films
Session N
NA. Bio-Fluid Dynamics: Heart Valves
NB. General Microfluidics
NC. Microfluidics: Electrophoresis and Electroosmosis II
ND. Rising and Spreading of Drops and Bubbles
NE. Multiphase Flows: General IV
NF. Interfacial and Thin Film Instabilities V
NG. Vortex Dynamics V
NH. Industrial Flows
NJ. Granular Media: General II
NK. Chaos
NL. Waves IV
NM. General Fluid Dynamics III
NN. Geophysical Flows V
NP. Turbulence Simulations: DNS and LES
NQ. Richtmyer-Meshkov Instability
NR. Turbulent Boundary Layers: Jets, Wakes and Gradients
NS. Turbulence Theory III
NT. Rayleigh-Taylor Instability II
NU. Convection and Buoyancy Driven Flows VI
Session P
P1. Poster Session: General Fluid Dynamics