Session Index
Session AAA. Micro Fluids: Fluidic Devices I
AB. Non-Newtonian Flows I
AC. Drops and Bubbles I
AE. Turbulence: Boundary Layers I
AG. Instability: Jets and Wakes I
AI. Instability: Shear Layers I
AJ. Chaos and Fractals I
AK. Rarefied Gases and DSMC
AL. Instability: General I
AM. Granular Flows I
AN. Nano Fluids I
AO. Turbulence: Simulations I
AP. Particle-Laden Flows I
AQ. Porous Media Flows I
AR. Vortex Dynamics and 3D Vortex Flows I
AS. Rotating Flows I
AT. Multiphase Flows I
Session B
BA. Micro Fluids: Fluidic Devices II
BB. Computational Fluid Dynamics I
BC. Drops and Bubbles II
BD. Biofluids I
BE. Turbulence: Boundary Layers II
BF. Drops and Bubbles III
BG. Instability: Jets and Wakes II
BH. Biofluids II: Flying
BI. Experimental Techniques I
BJ. Compressible Flows
BK. Free Surface Flows I
BL. Geophysical: General I
BM. Granular Flows II
BN. Nano Fluids II
BO. Turbulence: Control I
BP. Particle-Laden Flows II
BQ. Porous Media Flows II
BR. Vortex Dynamics and 3D Vortex Flows II
BS. Mini-Symposium I: Turbulence Simulations and Advanced Cyberinfrastructure
BT. Multiphase Flows II
Session C
CTa. Awards Presentation
CTb. Otto Laporte Lecture
Session D
DS. Invited Session: Morphodynamics of rivers and turbidity currents: an elegant conversation between water and sediment
DT. Invited Session: Collective hydrodynamics of swimming micro-organisms
Session E
EA. Micro Fluids: General I
EB. Non-Newtonian Flows II
EC. Drops and Bubbles IV
ED. Biofluids III: Voice
EE. Turbulence: Modeling I
EF. Drops and Bubbles V
EG. Instability: Jets and Wakes III
EH. Biofluids IV: Swimming
EI. Instability: Shear Layers II
EJ. Chaos and Fractals II
EK. Free Surface Flows II
EL. Instability: General II
EN. Nano Fluids III
EO. Turbulence: Control II
EP. Particle-Laden Flows III
EQ. Reacting Flows I
ER. Vortex Dynamics and 3D Vortex Flows III
ES. Rotating Flows II
ET. Multiphase Flows III
Session F
FA. Micro Fluids: General II
FB. Computational Fluid Dynamics II
FC. Drops and Bubbles VI
FD. Biofluids V
FE. Turbulence: Boundary Layers III (Non-canonical)
FF. Biofluids VI
FG. Instability: Interfacial and Thin Films I
FH. Acoustics I
FI. Experimental Techniques II
FJ. Mini-Symposium II: Deformable Particle Suspensions and Solutions
FK. Free Surface Flows III
FL. Geophysical: Atmospheric I
FM. Granular Flows III
FN. Instability: Boundary Layers I
FO. Turbulence: Control III
FP. Particle-Laden Flows IV
FQ. Reacting Flows II
FR. Vortex Dynamics and 3D Vortex Flows IV (Point Vortices)
FS. Turbulence: Mixing I
FT. Multiphase Flows IV
Session G
GA. Micro Fluids: General III
GB. Computational Fluid Dynamics III
GC. Drops and Bubbles VII
GD. Biofluids VII
GE. Turbulence: Boundary Layers IV
GF. Biofluids VIII: Swimming
GG. Instability: Interfacial and Thin Films II
GH. Acoustics II
GI. Experimental Techniques III
GJ. Convection and Buoyancy-Driven Flows I
GK. Free Surface Flows IV
GL. Geophysical: Atmospheric II
GM. Granular Flows IV
GN. Instability: Boundary Layers II
GO. Turbulence: Simulations II
GP. Waves I
GR. Vortex Dynamics and 3D Vortex Flows V
GS. Turbulence: Mixing II
GT. Mini-Symposium on Fluids Demonstrations and Instructional Laboratories
Session H
HS. Invited Session: Vortices, particles and superfluidity
HT. Invited Session: Insect flight: Aerodynamics, efficiency and evolution
Session I
IS. Invited Session: Flow of dense granular media: A peculiar liquid
IT. Invited Session: Entomological fluid dynamics
Session J
JA. Micro Fluids: General IV
JB. Computational Fluid Dynamics IV
JC. Drops and Bubbles VIII
JD. Biofluids IX: Cellular
JE. Turbulence: Boundary Layers V
JF. Biofluids X: Flying
JG. Instability: Interfacial and Thin Films III
JH. Acoustics III
JI. Micro Fluids: Mixing
JJ. Convection and Buoyancy-Driven Flows II
JK. Viscous Flows
JL. Geophysical: General II
JM. Instability: Richtmyer-Meshkov I
JN. General Fluid Dynamics I
JO. Turbulence: Simulations III
JP. Surface Tension Effect I
JQ. Reacting Flows III
JR. Vortex Dynamics and 3D Vortex Flows VI
JS. Mini-Symposium IV: Incorporating Biology Into a Fluids Curriculum
JT. Separated Flows I
JU. Poster Session: 15:35-17:00
Session K
KA. Micro Fluids: General V
KB. Computational Fluid Dynamics V
KC. Drops and Bubbles IX
KD. Turbulence: Theory I
KE. Turbulence: Modeling II
KF. Biofluids XI
KG. Instability: Interfacial and Thin Films IV
KH. Biofluids XII: Propulsion
KI. Experimental Techniques IV
KJ. Convection and Buoyancy-Driven Flows III
KK. Aerodynamics
KL. Geophysical: Oceanographic I
KM. Instability: Richtmyer-Meshkov II and Rayleigh-Taylor
KN. General Fluid Dynamics II
KO. Turbulence: Simulations IV
KP. Surface Tension Effect II
KQ. Turbulence: Shear Layers I
KR. Suspensions I
KS. Mini-Symposium V: Lagrangain Dynamics in Turbulence
KT. Separated Flows II
Session L
LS. Invited Session: Twenty years of experiment and DNS access to the velocity gradient tensor: What we have learned about turbulence
LT. Invited Session: Making shock waves in microfluidics: The physics and applications of isotachophoresis
Session M
MS. Francois Frenkiel Award Lecture: Relativistic self-similar solutions: Explosions, implosions and shock breakouts
MT. Andreas Acrivos Award Lecture: Collective dynamics in suspensions of anisotropic and deformable particles
Session N
NA. Micro Fluids: General VI
NC. Drops and Bubbles X
ND. Turbulence: Theory II
NE. Turbulence: Modeling III
NF. Biofluids XIII
NG. Instability: Interfacial and Thin Films V
NH. Biofluids XIV
NI. Material Processing and Industrial Applications
NJ. Convection and Buoyancy-Driven Flows IV
NK. Aerodynamic Computations
NL. Geophysical: Oceanographic II
NM. Instability: Rayleigh-Taylor and Taylor-Couette
NN. Supersonic and Hypersonic Flows
NO. Separated Flows III
NP. Waves II
NQ. Turbulence: Shear Layers II
NR. Suspensions II
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