Session Index
Session AAA. Turbulent Mixing I
AB. Turbulent Boundary Layers I
AC. Turbulence Modeling I
AD. CFD: Algorithms I
AE. Instability: Boundary Layers I
AF. Porous Media I: CO2 Sequestration
AG. GFD: Oceanography I
AH. Convection and Buoyancy Driven Flows I
AJ. Flow Control I
AK. Free Surface Flows: Spreading and Wetting
AL. Biofluids: Physiological General
AM. Microfluids: General I: Electrokinetic
AN. Vortex Dynamics and Vortex Flows I
AP. Nanofluids I
AQ. Mini-Symposium on Biological Perspectives on Locomotion
AR. Drops I
AU. Multiphase Flows I
AV. Particle Laden Flows I
AW. Instability: Richtmyer-Meshkov/Rayleigh-Taylor I
AX. Aerodynamics I: Flapping Wings
AY. Instability: Interfacial and Thin Film I
AZ. Waves I
Session B
B1. Awards Presentations, Followed by the Otto Laporte Lecture
Session C
CA. Turbulent Mixing II
CB. Turbulent Boundary Layers II
CC. Turbulence Modeling II
CD. CFD: Algorithms II
CE. Instability: Boundary Layers II
CF. Porous Media II
CG. Mini-Symposium on Computational Strategies for the Simulation of Nonlinear Waves and Turbulence in Environmental Flows
CH. Convection and Buoyancy Driven Flows II
CJ. Flow Control II
CK. Free Surface Flows: Macro-Scale Phenomena
CL. Biofluids: Physiological Feeding
CM. Microfluids: General II
CN. Vortex Dynamics and Vortex Flows II
CP. Nanofluids II
CQ. Biolocomotion I: Micro-swimming I
CR. Drops II
CS. Drops III: Evaporation
CT. Biolocomotion II: Slithering, Crawling and Undulatory Swimming
CU. Multiphase Flows II
CV. Particle Laden Flows II
CW. Instability: Richtmyer-Meshkov/Rayleigh-Taylor II
CX. Aerodynamics II
CY. Instability: Interfacial and Thin Film II
CZ. Waves II
Session D
DS. Invited Session: Particle Laden Viscous Fluids and the Gulf of Mexico Oilspill
DT. Invited Session: Fluid Simulation in the Movies: Navier and Stokes Must Be Circulating in Their Graves
Session E
EA. Mini-Symposium on Optical Effects of Turbulence
EB. Turbulent Boundary Layers III
EC. Turbulence Modeling III
ED. Turbulence Simulations I
EE. Instability and Turbulence: Couette and Channel Flow
EF. Porous Media III
EG. GFD: Oceanography II
EH. Convection and Buoyancy Driven Flows III
EJ. Flow Control III
EK. Acoustics I: Shear Flows
EL. Biofluids: Physiological Respiratory
EM. Microfluids: General III: Microchannels
EN. Vortex Flows: Vortex Rings
EP. Nanofluids III
EQ. Biolocomotion III: Micro-swimming II
ER. Drops IV
ES. Drops V
ET. Biolocomotion IV: Morphology of Flying and Swimming
EU. Multiphase Flows III
EV. Particle Laden Flows: Simulations I
EW. Instability: Richtmyer-Meshkov/Rayleigh-Taylor III
EX. Aerodynamics III
EY. Instability: Interfacial and Thin Film III
EZ. Couette and Swirling Flows
Session G
GA. Turbulence Theory I
GB. Turbulent Boundary Layers IV
GC. General Fluid Dynamics I
GD. CFD I: Immersed Boundary and Interface Methods
GE. Instability: Jets and Wakes I
GF. Separated Flows I
GG. GFD: Atmospheric Flows I
GH. Convection and Buoyancy Driven Flows IV
GJ. Flow Control IV
GK. Granular Flows I
GL. Biofluids: Physiological Circulatory I
GM. Microfluids: General IV: Bubbles, Drops and Particles
GN. Vortex Flows: Inviscid
GP. Microfluids: Fluidic Devices I
GQ. Bubbles I
GR. Drops VI
GS. Drops VII
GT. Biolocomotion V: Flapping and Flying I
GU. Multiphase Flows IV
GV. Particle Laden Flows: Simulations II
GW. Surface Tension I
GX. Compressible Flows I
GY. Instability: Interfacial and Thin Film IV
GZ. Instability: General I
Session H
HA. Turbulence Theory II
HB. Turbulent Boundary Layers V
HC. General Fluid Dynamics II
HD. CFD II: Immersed Boundary Methods and Fluid-Structure Interaction
HE. Instability: Jets and Wakes II
HF. Separated Flows II
HG. GFD: Atmospheric Flows II
HH. Convection and Buoyancy Driven Flows V
HJ. Flow Control V
HK. Granular Flows II
HL. Biofluids: Physiological Circulatory II
HM. Microfluids: General V: Particle Manipulation
HN. Vortex Flows: Vortex-Induced Vibrations and Unsteady Flows
HP. Microfluids: Fluidic Devices II
HQ. Bubbles II
HR. Drops VIII: Impact
HS. Drops IX: Impact
HT. Biolocomotion VI: Flapping and Flying II
HU. Multiphase Flows V
HV. Reacting Flows I
HW. Surface Tension II
HX. Compressible Flows II
HY. Instability: Interfacial and Thin Film V
HZ. Instability: General II
Session J
JS. Invited Session: Dynamics of Electrically Conducting Fluids
JT. Invited Session: Splashes
Session K
KS. Invited Session: Ocean Circulation and Surface Buoyancy Fluxes: Dynamics and Energetics
KT. Invited Session: Dynamics of Suspended Colloidal Particles Near a Wall: Electrokinetic Effects and Implications for Particle-based Velocimetry
Session L
L1. Poster Session (3:15-5:00PM)
LA. Turbulent Mixing III
LB. Turbulent Boundary Layers VI
LC. Experimental Techniques I
LD. Turbulence Simulations II
LE. Instability and Turbulence: Shear Layers
LF. Chaos and Fractals
LG. GFD: Oceanography III
LH. GFD: General I
LJ. Acoustics II
LK. Biofluids: Cellular I
LL. Mini-Symposium on Microhydrodynamics of Lipid Bi-layer Membranes
LM. Microfluids: General VI: Magnetic and Electric Fields
LN. Vortex Flows: Bluff Bodies
LP. Microfluids: Fluidic Devices III
LQ. Biolocomotion VII: Micro-Swimming III
LR. Bubbles III
LS. Drops X
LT. Biolocomotion VIII: Flapping and Flying III
LU. Reacting Flows II
LV. Reacting Flows III
LW. Surface Tension III
LX. Aerodynamics IV
LY. Viscous Flows
LZ. Instability: General III
Session M
MA. Turbulent Boundary Layers VII: Theory
MB. Turbulent Boundary Layers VIII
MC. Turbulence Simulations III
MD. Turbulence Simulations IV
ME. General Fluid Dynamics III
MF. Non-Newtonian Flows I
MG. GFD: Atmospheric Flows III
MH. GFD: General II
MJ. Acoustics III: Oscillatory Excitations
MK. Biofluids: Cellular II
ML. Biofluids: Physiological Cardiovascular I
MM. Microfluids: General VII
MN. Quantized Vortices and Vortex Dynamics
MP. Microfluids: Mixing I
MQ. Biolocomotion IX: Micro-Swimming IV
MR. Supersonic and Hypersonic Flows I
MS. Drops XI
MT. Biolocomotion X: Macro-Swimming I
MU. Reacting Flows IV
MV. Suspensions I
MW. Experimental Techniques II
MX. Industrial Applications I
MY. Magnetohydrodynamics
MZ. Rotating Flows I
Session N
NS. Invited Session: Turbulence in Strongly Stratified Flows
NT. Invited Session: Wetting, Spreading and Capillary Adhesion: Putting Shape-instability to Purpose
Session P
PS. Andreas Acrivos Dissertation Award Lecture
PT. Francois Frenkiel Award Lecture
Session Q
QA. CFD: Multiphase and Mixing Applications
QB. Turbulent Boundary Layers IX
QC. Rarefied Gases and Compressible Flows
QD. Turbulence Simulations V
QE. General Fluid Dynamics IV
QF. Non-Newtonian Flows II
QG. Stratified Flows I
QH. GFD: General III
QJ. Flow Control VI
QK. Biofluids: Cellular III
QL. Biofluids: Physiological Cardiovascular II
QM. Free Surface Flows: Droplets and Sheets
QN. Granular Flows III
QP. Microfluidics: Mixing II
QQ. Bubbles IV
QR. Supersonic and Hypersonic Flows II
QS. Biolocomotion XI: Micro-Swimming Collective Behavior
QT. Biolocomotion XII: Macro-Swimming II
QU. Reacting Flows V
QV. Suspensions II
QW. Experimental Techniques III
QX. Industrial Applications II
QY. Instability: Interfacial and Thin Film VI
QZ. Rotating Flows II
Session R
RA. Turbulence Theory III
RB. Turbulence Simulations VI
RC. Rarefied Gases and Direct Simulation Monte Carlo
RD. Turbulence Simulations VII
RF. Non-Newtonian Flows III
RG. Stratified Flows II
RH. Convection and Buoyancy Driven Flows VI
RJ. Flow Control VII
RK. Biofluids: Cellular IV
RL. Biofluids: Physiological Cerebral
RM. Free Surface Flows: Interfacial Phenomena
RN. Granular Flows IV
RQ. Bubbles V
RS. Biofluids: General
RT. Biolocomotion XIII: Macro-Swimming III
RU. Particle Laden Flows III
RV. Suspensions III
RW. Experimental Techniques IV
RX. Material Processing Flows
RY. Instability: Interfacial and Thin Film VII
RZ. Waves III
Sessions by a Sponsor