Session Index
Session AA1. Fluid Structure Interactions I
A2. Convection and Buoyancy-Driven Flows I: Rayleigh-Bénard Convection
A3. Multiphase Flows: Cavitation
A4. Drops I
A5. Computational Fluid Dynamics I
A6. Electrokinetics I
A7. Microfluidics: Methods and Devices I
A8. Particles: Gravity and Settling
A9. Interfacial/Thin Film Instability I
A10. Instability: Jets, Wakes and Shear Layers I
A11. Bubbles I
A12. Vortex I
A13. Geophysical: General I
A14. General Experiments I
A15. Biofluids: Micro-PIV
A16. Biofluids: Valves, Stents and Devices
A17. Biofluids: Flapping and Flying I
A18. Biofluids: General
A19. Mini-Symposium: High-Speed, High-Energy Multimaterial Flows
A20. Turbulent Boundary Layers I: Large Structures
A21. Separated Flows I
A22. Turbulence Modeling: LES/RANS
A23. Turbulence Theory: Isotropic Turbulence
A24. Acoustics I: Turbulence and Aerodynamics
A25. Flow Control: General I
A26. Reactive Flows I: Turbulent Combustion Experiments
A27. Rarefied Gases
A28. Free-Surface Flows I
A29. Porous Media Flows I
A30. Nanofluids: Experiments
A31. Focus Session: Interfacial Engineering in Thermal-Fluids I
A32. Focus Session: Vortex Dynamics in Fluid-Structure Interactions I
Session B
B1. Awards Presentations, followed by the Fluid Dynamics Prize and Corrsin Award Lectures
Session C
C33. Invited Session: Synchronization of Eukaryotic Flagella
C34. Invited Session: The Logarithmic Layer of Wall-bounded Turbulent Flows
Session D
D1. Geophysical: Atmospheric I
D2. Convection and Buoyancy-Driven Flows II: Rayleigh-Bénard Convection
D3. Multiphase Flows: Bubble Dynamics
D4. Drops II
D5. Computational Fluid Dynamics II
D6. Electrokinetics II
D7. Microfluidics: Methods and Devices II
D8. Particles: Experimental
D9. Interfacial/Thin Film Instability II: Fingering
D10. Instability: Jets, Wakes and Shear Layers II: Wakes I
D11. Microfluidics: Mixing
D12. Vortex II
D13. Geophysical: General II
D14. General Experiments II
D15. Biofluids: Large Swimmers I
D16. Biofluids: Arteries
D17. Biofluids: Microswimmers and Hydrodynamic Interactions
D18. Biofluids: Complex Interaction
D19. Surface Tension I
D20. Turbulent Boundary Layers II: Structures
D21. Turbulence Simulation: Isotropic/Homogenous Shear
D22. Turbulence Modeling: LES Wall Models
D23. Turbulence Theory: General I
D24. Acoustics II: Jets and Cavities
D25. Flow Control: Aerodynamics
D26. Reactive Flows II: Turbulent Combustion Modelling
D27. Supersonic Flows I
D28. Free-Surface Flows II
D29. Porous Media Flows II
D30. Nanofluids: Computations I
D32. Focus Session: Vortex Dynamics in Fluid-Structure Interactions II
Session E
E1. Geophysical: Ocean I
E2. Convection and Buoyancy-Driven Flows III: Rayleigh-Bénard Convection
E3. Multiphase Flows: Boiling
E4. Drops III
E5. Computational Fluid Dynamics III
E6. Electrokinetics III
E7. Suspensions I
E8. Particles: Collisions
E9. Aerodynamics I
E10. Instability: Jets, Wakes and Shear Layers III: Wakes II
E11. Rotating Flows I: Rotating Convection
E12. Vortex III
E13. Geophysical: General III
E14. Experiments: Turbulence
E15. Biofluids: Large Swimmers II
E16. Biofluids: Cardiovascular Simulations and Devices
E17. Biofluids: Plants
E18. Biofluids: Vesicles
E19. Thin Films
E20. Turbulent Boundary Layers III: Theory
E21. Turbulence Simulation: Compressible/Hypersonic
E22. Turbulence Modeling: LES
E23. Turbulence Theory: 2D Turbulence
E24. Acoustics III
E25. Flow Control: Jets
E26. Reactive Flows III: Supersonic Combustion and Theory
E27. Renewable Energy
E28. Free-Surface Flows III
E29. Porous Media Flows III
E30. Nanofluids: Computations II
E31. Focus Session: Interfacial Engineering in Thermal-Fluids II
E32. Focus Session: Vortex Dynamics in Fluid-Structure Interactions III
Session F
F1. Poster Session (5:50PM-6:50PM)
F2. Welcome Reception
Session G
G1. Geophysical: Atmospheric II
G2. Convection and Buoyancy-Driven Flows IV
G3. Multiphase Flows: Numerical Methods I
G4. Drops IV
G5. Computational Fluid Dynamics IV
G6. Microfluidics: General I
G7. Suspensions II
G8. Drops V
G9. Interfacial/Thin Film Instability III
G10. Instability: Jets, Wakes and Shear Layers IV
G11. Bubbles II
G12. Vortex IV
G13. Geophysical: General IV
G14. Experiments: PIV I
G15. Biofluids: Large Swimmers III
G16. Biofluids: Aneurysms and Thrombosis
G17. Biofluids: Microswimmers Experiments I
G18. Biofluids: Speech and Vocal
G19. Surface Tension II
G20. Turbulent Boundary Layers IV: Scaling, logarithmic layer
G21. Turbulence Simulation: Wall Bounded
G22. Turbulence Mixing I: Mixing in Jets
G23. General Fluids I
G24. Aerodynamics II
G25. Flow Control: Wakes
G26. ReactIve Flows IV: Detonations
G27. Separated Flows II
G28. Waves I
G29. Porous Media Flows IV
G30. Nanofluids: Theory
G31. Wind Energy I
G32. Granular Flows I
G33. Mini-Symposium: Complex Fluid Flows in Memory of Daniel D. Joseph I
Session H
H1. Geophysical: Ocean II
H2. Convection and Buoyancy-Driven Flows V: Exchange Flows
H3. Multiphase Flows: Numerical Methods II
H4. Drops VI
H5. Computational Fluid Dynamics V
H6. Microfluidics: General II
H7. Non-Newtonian Flows I
H8. Drops VII
H9. Interfacial/Thin Film Instability IV
H10. Instability: Jets, Wakes and Shear Layers V
H11. Bubbles III
H12. Vortex V
H13. Rayleigh-Taylor Instability I
H14. General Experiments III
H15. Biofluids: Animals
H16. Biofluids: Heart Ventricles and Assist Devices
H17. Biofluids: Micro-swimming Theory I
H18. Biofluids: Flapping and Flying II
H19. Multiphase Flows: General I
H20. Turbulent Boundary Layers V: Experiments
H21. Turbulence Simulation: Sensitivity/Uncertainty
H22. Turbulence Mixing II: Heat Transport
H23. Turbulent Boundary Layers VI: Compressible
H24. Aerodynamics III
H25. Flow Control: Internal flow
H26. Reactive Flows V: Numerical Approaches to Turbulent Combustion
H27. Separated Flows III
H28. Waves II
H29. Porous Media Flows V
H30. Colloids and Fibers
H31. Particle Laden Flows IV
H32. Granular Flows II
H33. Mini-Symposium: Complex Fluid Flows in Memory of Daniel D. Joseph II
Session J
J33. Invited Session: Boundary Layers in Favourable Pressure Gradients
J34. Invited Session: Control of Oscillator and Amplifier Flows
Session K
K33. Invited Session: Numerical Investigations of Turbidity Currents
K34. Invited Session: Tipstreaming and other methods of producing fine fluid threads
Session L
L1. Geophysical: Atmospheric III
L2. Convection and Buoyancy-Driven Flows VI: Plumes
L3. Multiphase Flows: Atomization and Droplets
L4. Drops VIII
L5. Computational Fluid Dynamics VI
L6. Microfluidics: Capillary I
L7. Non-Newtonian Flows II
L8. Drops IX
L9. Interfacial/Thin Film Instability V: Evaporation
L10. Instability: Jets, Wakes and Shear Layers VI: Jets
L11. Bubbles IV and Drug Delivery
L12. Vortex VI
L13. Rayleigh-Taylor/Richtmyer-Meshkov Instability
L14. Experiments: PIV II
L15. Biofluids: Insect Flight
L16. Biofluids: Blood Transport
L17. Biofluids: Microswimmers and Elasticity
L18. Biofluids: Respiratory and Aerosols
L19. Surface Tension III
L20. Turbulent Boundary Layers VII: Rough Walls I
L21. Turbulent Boundary Layers VIII: Rough Walls II
L22. Turbulence Mixing III
L23. Turbulent Boundary Layers IX: Rough / Wavy / Bent Walls
L24. Aerodynamics IV
L25. Flow Control: Boundary layer
L26. Reactive Flows VI: Fire, Soot, and Spray Combustion
L27. Boundary-Layer Instability I
L28. Industrial Applications I: Turbines and Engines
L29. Chaos, Fractals, and Dynamical Systems I: Lagrangian Coherent Structures
L30. Fluid Education
L31. Particle Laden Flows V
L32. Granular Flows III
Session M
M1. Geophysical: Ocean III
M2. Convection and Buoyancy-Driven Flows VII
M3. Multiphase Flows: Confined Flows
M4. Drops X
M5. Computational Fluid Dynamics VII
M6. Microfluidics: Capillary II
M7. Geophysical: General V
M8. Drops XI
M9. Interfacial/Thin Film Instability VI
M10. General Instability I
M11. Viscous Flows
M12. Vortex VII
M13. Richtmyer-Meshkov Instability I
M14. Rotating Flows II: Taylor-Couette Flow
M15. Biofluids: Microswimmer Suspensions
M16. Biofluids: Blood Cells
M17. Biofluids: Microswimmers Experiments II
M18. Particle Laden Flows VI: Turbulence
M19. Non-Newtonian Flows III
M20. Turbulent Boundary Layers X: Drag Reduction
M21. Turbulence Shear Layer
M22. Turbulence Mixing IV
M23. Turbulence Theory: General II
M24. Compressible Flows I
M25. Flow Control: External flows
M26. Reactive Flows VII
M27. Boundary-Layer Instability II
M28. Industrial Applications II
M29. Chaos, Fractals, and Dynamical Systems II
M30. General Fluids II
M31. Wind Energy II
M32. Granular Flows IV
Session N
N33. Invited Session: Waves and Wave-driven Flow on a Coral Reef
N34. Invited Session: Simulation-based Planning of Surgical Interventions in Pediatric Cardiology
Session P
P33. Andreas Acrivos Dissertation Award Lecture
P34. Francois Frenkiel Award Lecture
Session R
R1. Geophysical: Ocean IV
R2. Convection and Buoyancy-Driven Flows VIII
R3. Multiphase General II
R4. Foams
R5. Computational Fluid Dynamics VIII
R6. Microfluidics: Capillary III
R7. Geophysical: General VI
R8. Drops XII
R9. Magnetohydrodynamics
R10. General Instability II
R11. Microfluidics: Particles
R12. Vortex VIII
R13. Richtmyer-Meshkov Instability II
R14. Rotating Flows III
R15. Biofluids: Flying and Swimming
R16. Biofluids: Biofilms and Membranes
R17. Biofluids: Micro-swimming Theory II
R18. Particle Laden Flows VII:
R19. Non-Newtonian Flows IV: Turbulence
R20. Turbulent Boundary Layers XI: Nonequilibrium and Transition
R21. General Fluids V
R22. Turbulence Modeling
R23. Turbulence Theory: Rotating/Stratified/Compressible
R24. Compressible Flows II
R25. Flow Control: General II
R26. Aerodynamics V
R27. Computational Fluid Dynamics IX
R28. General Fluids III
R29. Chaos, Fractals, and Dynamical Systems III
R30. General Fluids IV
R31. Wind Energy III
R32. Granular Flows V
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