Session A
  AA. Turbulent Boundary Layers: DNS & LES
  AB. Turbulence Simulations I
  AC. Turbulence Modeling I
  AD. Stability and Transition
  AE. Flow Control I
  AF. Interfacial Instabilities
  AG. Drops I
  AH. Bubbles I
  AJ. Bio-Fluids: Cell/Vesicle Dynamics I
  AK. Free Surface Flows I
  AL. Bio-Fluids: Phonation/Glottal Flows
  AM. Bio-Fluids: Flight I
  AN. Micro Fluids I
  AP. Multiphase Flows I
  AQ. Reacting Flows I: Turbulent Flames
  AR. CFD: Immersed Boundary and Computational Methods
  AS. Buoyancy-Driven Flows I
  AT. Experimental Techniques I
  AU. Vortex Flows I
  AV. Geophysical Flows I
  AW. Mini-Symposium: Videos and Multimedias for Fluids Instruction
Session B
  BA. Turbulent Boundary Layers: Roughness Effects
  BB. Turbulence Simulations II
  BC. Turbulence Theory I
  BD. Transition to Turbulence
  BE. Flow Control II
  BF. Gravity Driven Instabilities in Films and Interfaces
  BG. Drops II
  BH. Bubbles II
  BJ. Bio-Fluids: Cell/Vesicle Dynamics II
  BK. Free Surface Flows II
  BL. Bio-Fluids: Cardiac Flows
  BM. Bio-Fluids: Flight II
  BN. Micro Fluids II
  BP. Multiphase Flows II
  BQ. Particle Laden Flows I
  BR. CFD: Continuum Mechanics
  BS. Buoyancy-Driven Flows II
  BT. Experimental Techniques II
  BU. Vortex Flows II
  BV. Geophysical Flows II
  BW. Mini-Symposium: Flow Visualization in Low Temperature Helium
Session C
  C1. Awards Presentation followed by Fluid Mechanics Prize-Otto Laporte Lecture: The Art of Mixing with an Admixture of Art: Fluids, Solids, and Visual Imagination
Session D
  D1. Invited Session: Magnetic Field Reversals in Turbulent Dynamos
  D2. Invited Session: Slip, Droplets, Complex Fluids and Other Small Things Investigated With Microfluidic Technology
Session E
  EA. Turbulent Boundary Layers: Theory
  EB. Turbulence Simulations III
  EC. Turbulence Modeling II
  ED. Instabilities in Jets
  EE. Free-Surface Flows: Computational Studies
  EF. Film Instabilities
  EG. Drops III
  EH. Bubbles III
  EJ. Bio-Fluids: General I
  EK. Free Surface Flows III
  EL. Bio-Fluids: Lungs
  EM. Bio-Fluids: Flight III
  EN. Applied Fluid Dynamics
  EP. Basic Separated Flows
  EQ. Reacting Flows II: Detonations & Modeling
  ER. CFD: Discrete Methods
  ES. Rotating Flows
  ET. Experimental Techniques III
  EU. Vortex Flows III
  EV. Geophysical Flows: Mixing
  EW. Mini-Symposium: Lagrangian Coherent Structures in Fluid Flows
Session F
  FA. Reception
Session G
  GA. Turbulent Boundary Layers: Experimental Studies I
  GB. Turbulence Control I
  GC. Turbulence Theory II: Computational Studies
  GD. Shear Layer Instabilities
  GE. Flow Control Actuation and Unsteady Flows
  GF. Instabilities: Interfaces, Films and Droplets
  GG. Drops IV
  GH. Internal Waves I
  GJ. Bio-Fluids: Undulatory Flapping I
  GK. Micro Fluids: Mixing
  GL. Bio-Fluids: Rheology and Transport
  GM. Bio-Fluids: Flying and Swimming
  GN. Micro Fluids III
  GP. Multiphase Flows III
  GQ. Particle Laden Flows II
  GR. CFD: Applications
  GS. Jamming
  GT. Experimental Techniques IV
  GU. Vortex Rings
  GV. Geophysical Flows: Convection
  GW. Mini-Symposium: Tip-Streaming and Flow/EHD Flow Focusing
Session H
  HA. Turbulent Boundary Layers: Experimental Studies II
  HB. Turbulent Mixing I
  HC. Turbulent Shear Layers
  HD. Transient Growth and Receptivity of Boundary Layers
  HE. Rayleigh-Taylor Instabilities
  HF. Hele-Shaw Cells and Marangoni Instabilities
  HG. Drops V
  HH. Internal Waves II
  HJ. Bio-Fluids: Undulatory Flapping II
  HK. Fluidic Devices
  HL. Bio-Fluids: Blood Vessels
  HM. Granular Matter
  HN. Micro Fluids IV
  HP. Multiphase Flows IV
  HQ. Particle Laden Flows III
  HR. General Fluid Mechanics: Experiments
  HS. Viscous Flows
  HT. Experimental Techniques V
  HU. Surface Waves
  HV. Geophysical Flows: Coherent Structure and Transportation
  HW. Mini-Symposium: Computational Challenges in Modeling Transient Detonation
Session J
  J1. Invited Session: Supersonic Turbulence and Star Formation
  J2. Invited Session: Fluid Mechanics of Urban Environments
Session K
  K1. Invited Session: Turbulent Mixing Due to Rayleigh-Taylor Instability
  K2. Invited Session: The Physics of Spacecraft Hall-Effect Thrusters
Session L
  LA. Turbulent Boundary Layers: Experimental Studies III
  LB. Turbulent Mixing II
  LC. Turbulent Shear Layers and Mixing
  LD. Richtmeyer-Meshkov Instabilities
  LE. Control of Instabilities
  LF. Jet and Cavity Flows
  LG. Drops VI
  LH. Waves
  LJ. Bio-Fluids: General II
  LK. Nano-Fluids I
  LL. Bio-Fluids: Wakes and Mixing I
  LM. Sheared Granular Matter and Granular Collapse
  LN. Micro Fluids V
  LP. Multiphase Flows V
  LQ. Reacting Flows III: Flames and Modeling
  LR. General Fluid Mechanics: Theory
  LS. Convection I
  LT. Non-Newtonian Flows I
  LU. Cyberfluids and Industrial Applications
  LV. Chaos/Multifractality
  LW. Mini-Symposium: High Rayleigh Number Convection: Is there an ultimate regime?
  LZ. Poster Session (15:15 - 17:00)
Session M
  MA. Turbulence Theory III
  MB. Turbulence Control II
  MC. Rarefied Gases
  MD. Taylor-Couette and Richtmyer-Meshkov Instabilities
  ME. Porous Media I
  MF. Shock and Blast Waves
  MG. Drops VII
  MH. Surface Tension Effects I
  MJ. Bio-Fluids: General III
  MK. Nano-Fluids II
  ML. Bio-Fluids: Wakes and Mixing II
  MM. Granular Segregation
  MN. Micro Fluids VI
  MP. Multiphase Flows VI
  MQ. Acoustics
  MR. General Fluid Mechanics: Computations
  MS. Convection II
  MT. Non-Newtonian Flows II
  MU. Material Processing Flows
  MV. Suspenions I
Session N
  N1. Invited Session: Dynamics of the LTD Transition
  N2. Invited Session: Designing Large-Eddy Simulation of High Reynolds Number Wall-bounded Flows
Session O
  O1. Francois Frenkiel Award Lecture
  O2. Andreas Acrivos Award Lecture
Session P
  PA. Turbulent Boundary Layers: Computational Studies
  PB. Turbulence Simulations IV
  PC. Turbulence Modeling III
  PD. Instabilities in Wakes
  PE. Porous Media II
  PG. Drops VIII
  PH. Surface Tension Effects II
  PJ. Bio-Fluids: Undulatory Flapping III
  PK. Nano-fluids III
  PL. Bio-Fluids: Flight IV
  PP. Multiphase Flows VII
  PQ. Particle Laden Flows IV
  PR. General Fluid Mechanics: Numerical Simulations
  PS. Convection III
  PV. Suspensions II

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