Session Index
Session AAA. Biofluid Dynamics I: Swimming-1
AB. Biofluid Dynamics II: Flying
AC. Microfluidics I: Nanoscale
AD. Microfluidics II: Applications and Actuations
AE. Multiphase and Particle-Laden Flows I
AF. Drops and Bubbles I
AG. U.S.-Mexico Minisymposium I: Geophysical Fluid Dynamics
AH. Granular Flows I: Rotating Flows*
AI. Experimental Techniques I
AJ. Convection and Buoyancy-Driven Flows I
AK. Waves
AL. Turbulent Boundary Layers I
AM. Turbulent Mixing I
AN. Richtmyer-Meshkov/Rayleigh Taylor Instabilitities I*
AO. General Stability
AP. Turbulence Theory I
Session B
BA. Biofluid Dynamics III: Swimming
BB. Biofluid Dynamics IV: Aneurysm
BC. Microfluidics III: Electrokinetics
BD. Interfacial and Thin-Film I: Instabilities
BE. Suspensions I
BF. Drops and Bubbles II: Wetting and Splashing
BG. Geophysical Fluid Dynamics I
BH. Granular Flows II: Rapid Rlows
BI. Vortex Dynamics and 3D Vortex Flows I
BJ. Convection and Buoyancy-Driven Flows II*
BK. Free Surface Flows I
BL. Turbulent Shear Layers I
BM. Aerodynamics
BN. Boundary Layer Instabilities I
BO. Separated Flows I
BP. Supersonic and Hypersonic Flows
Session C
C1. Presentation of Awards and DFD Fellowships
C2. Otto Laporte Lecture: Turbulent Asymptotics--Tom Lundgren (2006 DFD Fluid Dynamics Prize)
Session D
DA. Invited Lecture: Optimizing Locomotion
DB. Invited Lecture: Vortex Formation in Shallow Flows
Session E
EA. Biofluid Dynamics V: Pumps and Capillary Flows
EB. Biofluid Dynamics VI: Cells
EC. Microfluidics IV: Mixing-1
ED. Interfacial and Thin-Film Instabilities II
EE. Suspensions II
EF. Drops and Bubbles III*
EG. Geophysical Fluid Dynamics II
EH. Granular Flows III: Packed Beds
EI. Vortex Dynamics and 3D Vortex Flows II
EJ. Convection and Buoyancy Driven Flows III
EK. Free Surface Flows II
EL. Turbulent Shear Layers II
EM. Turbulence Simulations I
EN. Boundary Layer Instabilities II
EO. Separated Flows II
EP. Viscous Flows I
Session F
FA. Biofluid Dynamics VII: Cardiovascular Flow
FB. Computational Fluid Dynamics I: General Methodology
FC. Microfluidics V: Numerical Studies-1
FD. Interfacial and Thin Film Instabilities III*
FE. Multiphase and Particle-Laden Flows II
FF. Drops and Bubbles IV
FG. Geophysical Fluid Dynamics III
FH. Minisymposium II: Fluid Mechanics Education
FI. Vortex Dynamics and 3D Vortex Flows III
FJ. Convection and Buoyancy-Driven Flows IV
FK. Rotating Flows
FL. Turbulence and Instability Control I
FM. Turbulence Simulations II
FN. Jet and Wake Instabilities I
FO. Turbulence Modeling I*
FP. Viscous Flows II
Session G
GA. Biofluid Dynamics VIII
GB. Computational Fluid Dynamics II
GC. Microfluidics VI: Numerical Studies-2
GD. Interfacial and Thin-Film Instability IV
GE. Multiphase and Particle-Laden Flows III
GF. Drops and Bubbles V
GG. Geophysical Fluid Dynamics IV
GH. General Fluid Dynamics*
GI. Vortex Dynamics and 3D Vortex Flows IV
GJ. Surface Tension Effects I
GK. Chaos and Fractals
GL. Turbulent Boundary Layers II*
GM. Compressible Flows
GN. Jet and Wake Instabilities II
GO. Turbulence Modeling II
GP. Shear Layer Instabilities*
Session H
HA. Biofluid Dynamics IX
HB. Computational Fluid Dynamics III
HC. Microfluidics VII: Electroosmotic Flows and Dielectrophoresis
HD. Interfacial and Thin Flim Instabilities V
HE. Multiphase and Particle-Laden Flows IV
HF. Drops and Bubbles VI: Foams
HG. Geophysical Fluid Dynamics V
HH. Suspensions III
HI. Vortex Dynamics and 3D Vortex Flows V
HJ. Convection and Buoyancy Driven Flows V
HK. Non-Newtonian Flows I
HL. Turbulent Boundary Layers III
HM. Turbulence Simulations III
HN. Acoustics I
HO. Rarified Gases and DSMC
HP. Turbulence and Instability Control II
Session I
IA. Invited Lecture: Bubble Puzzles
IB. Invited Lecture: The Use of Global Modes to Understand Transition and Perform Flow Control
Session J
JA. Invited Lecture: Mixing in Small Scale Flows
JB. Invited Lecture: Advanced Modeling of Detonation Dynamics in Energetic Materials and Explosive Systems
Session K
KA. Biofluid Dynamics X: Sounds
KB. Biofluid Dynamics XI
KC. Microfluidics VIII: Mixing-2
KD. Reacting Flows I*
KE. Multiphase and Particle-Laden Flows V
KF. Drops and Bubbles VII
KG. Geophysical Fluid Dynamics VI: Ocean and Atmospheric Dynamics
KH. Granular Flows IV
KI. Vortex Dynamics and 3D Vortex Flows VI
KJ. Convection and Buoyancy-Driven Flows VI
KK. Non-Newtonian Flows II
KL. Turbulent Boundary Layers IV
KM. Turbulence Simulations IV
KN. Acoustics II
KO. Turbulence Modeling III
KP. Turbulence Theory II
Session L
LA. Biofluid Dynamics XII: Swimming-2
LB. Minisymposium III: Quantum Turbulence
LC. Microfluidics Dynamics IX: Velocimetry
LD. Microfluidics X: Complex Fluids
LE. Multiphase and Particle-Laden Flows VI
LF. Drops and Bubbles VIII
LG. Reacting Flows II: Non-Premixed Combustion*
LH. Minisymposium IV: Fluid Dynamics and Plasma Physics*
LI. Experimental Techniques II
LJ. Surface Tension Effects II
LK. Flows in Porous Media
LL. Turbulent Boundary Layers V
LM. Turbulent Mixing II
LN. Turbulence Theory III*
LO. Industrial Applications and Material Processing Flows
LP. Richtmyer-Meshkov/Rayleigh Taylor Instabilitities II
Session M
MA. Frenkiel Award Lecture: J.M Skotheim and L. Mahadevan
MB. Acrivos Award Lecture: Eric Lauga
Session N
NA. Invited Lecture: Formulation and Results from Ensemble Forecasting using Multimodels for Hurricanes, Global Weather and Seasonal Climate
NB. Invited Lecture: Measurements and Models of Cytoskeletal Rheology
Session O
OA. Biofluid Dynamics XIII: Micro-Environment
OB. Biofluid Dynamics XIV: Lungs
OC. Microfluidics XI: Dielectrophoresis and Surface Wetting
OD. Microfluidics XII: Mixing-3
OF. Drops and Bubbles IX: Drop Coalescence and Breakup
OG. Reacting Flows III
OH. Granular Flows V: Dense Flows
OI. Non-Newtonian Flows III
OJ. Surface Tension Effects III*
OK. Free Surface Flows III
OL. Turbulence and Instability Control III
OM. Turbulence Simulations V
ON. Taylor-Couette Instabilities
OO. Separated Flows III
OP. Turbulence Theory IV*
Session P
P1. Poster Session: General Fluid Dynamics
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