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aps dfd 2020 epitome

About 1,000 tornadoes strike the United States each year, causing billions of dollars in damage and killing about 60 people on average. On Demand Separated Flows: General (11:30am - 12:15pm CST), Y10 Non-Newtonian Flows: General (8:45am - 9:30am CST), K11 On Demand On Demand On Demand All images are under copyright and of the respective owners. On Demand Focus Session: Understanding Thermal Transport in Flows of Dense Suspensions (3:10pm - 3:55pm CST), E02 On Demand On Demand Reacting Flows: Detonations, Explosions and DDT (12:15pm - 1:00pm CST), Z14 On Demand 73rd Annual Meeting of the APS Division of Fluid Dynamics (Virtual) November 22-24, 2020 Chicago, IL. On Demand PIV, PTV, PLIF (8:00am - 8:45am CST), T10 The Division of Fluid Dynamics of the American Physical Society, established in 1947, exists for the advancement and diffusion of knowledge of the physics of fluids with special emphasis on the dynamical theories of the liquid, plastic and gaseous states of matter under all conditions of temperature and pressure. On Demand On Demand Rarefied Flows (8:45am - 9:30am CST), L01 Invited The abstract submission deadline is August 10, 2020. Biological Fluid Dynamics: Biofilms (8:45am - 9:30am CST), K02 Student Dinner Networking (6:30pm - 8:00pm CST), T01 Experimental Techniques: Quantitative Flow Visualization. Invited Speakers. Invited Talk: Designing Complex Fluids 1 Research Road, Ridge, NY 11961-2701 This website uses cookies to improve your experience while you navigate through the website. Jets: Impinging, Swirling, and General (8:00am - 8:45am CST), J03 On Demand During abstract submission, you will select a sorting category for your abstract. On Demand Porous Media Flows: Mixing and Turbulence (8:45am - 9:30am CST), K17 Riblets are surface microgrooves that are designed to reduce frictional losses on aircraft, but their performance degrade under certain flow conditions. All images are under copyright and of the respective owners. Session Index. Bubbles: Cavitation, Nucleation, Collapse, Coalescence (3:55pm - 4:40pm CST), F03 Flow Instability: General (5:45pm - 6:30pm CST), H05 IMAGE CREDITS We thank Gabriel Juarez and Azar Eslam-Panah for allowing us to use their picture on the DFD 2020 website. Multiphase Flows: Turbulence (10:45am - 11:30am CST), X09 Microscale Flows: Electrokinetics (8:00am - 8:45am CST), J09 (301) 209-3200 On Demand Flow Instability: Kelvin-Helmholtz (12:15pm - 1:00pm CST), Z08 Flow Control: Coherent Structures, Vortices and Turbulence (5:00pm - 5:45pm CST), G07 Invited Speakers:  Anne Juel, C02 Multiphase Flows: Particle-Laden Flows (10:45am - 11:30am CST), X08 Focus Session: Deep Learning in Experimental and Computational Fluid Mechanics (Part II) (5:45pm - 6:30pm CST), S02 Invited Speakers:  Heidi Nepf, D03 Live Award Talk: The Andreas Acrivos Dissertation Award Epitome. Invited Speakers:  Guowei He,  Ting Wu, E01 KEY DATES Chair: Elisabeth Guazzelli , CNRS On Demand Microscale Flows: Oscillations (8:45am - 9:30am CST), U12 Non-Newtonian Flows: Polymer Solutions (8:45am - 9:30am CST), K14 On Demand Live Get My Member Number On Demand Live On Demand On Demand by maggiegazzola@gmail.com. Particle-Laden Flows: General (5:00pm - 5:45pm CST), R12 On Demand The top video prize from the APS Division of Fluid Dynamics showcased research inspired by the pandemic, moving yeast, and the need for better fuel efficiency. Drops: Coalescence (5:45pm - 6:30pm CST), S06 APS DFD 2020 The meeting will take place online on the 22-24 November 2020. On Demand Jean-Luc Thiffault, Univ. Invited Speakers:  Randy Ewoldt, D02 Granular Flows: Mixing, Segregation and Separation (5:45pm - 6:30pm CST), J00 KEY DATES Don’t forget to double-check all key dates for abstract submission! Turbulence: LES Simulations (10:45am - 11:30am CST), X11 Geophysical Fluid Dynamics: Sediment Transport (8:45am - 9:30am CST), U07 Focus Session: Deep Learning in Experimental and Computational Fluid Mechanics (Part I) (5:00pm - 5:45pm CST), R02 Live On Demand Compressible Flow: Shock Waves and Explosions (3:55pm - 4:40pm CST), F06 The Division of Fluid Dynamics of the American Physical Society, established in 1947, exists for the advancement and diffusion of knowledge of the physics of fluids with special emphasis on the dynamical theories of the liquid, plastic, and gaseous states of matter under all conditions of temperature and pressure. Invited Speakers:  Douglas Kelley, C03 Chair: Endre Joachim Mossige, Stanford Univ, L03 On Demand Chair: Raymond Shaw, Michigan Technological University; Eckart Meiburg, University of California, L02 Poster and video entries must not duplicate one another. On Demand Check our contact page to find your referent contact, © 2020 APS DFD 2020. Live Microscale Flows: Mixing and Chemical Reactions (8:45am - 9:30am CST), U11 On Demand Drops: Dynamic Surface Interactions (8:00am - 8:45am CST), T05 Tutorials for Authors and Referees (6:30pm - 8:00pm CST), S12 On Demand Flow Instability: Richtmyer-Meshkov (12:15pm - 1:00pm CST), Z10 Invited On Demand ... APS DFD 2020 The meeting will take place online on the 22-24 November 2020. Microscale Flows: Particles, Drops, Bubbles (8:00am - 8:45am CST), J08 Invited Find a Journal Article General Fluid Dynamics: Rotating Flows (10:00am - 10:45am CST), W12 Biological Fluid Dynamics: Physiological Large Vessels (10:00am - 10:45am CST), W10 Turbulence: Modeling & Simulations (10:45am - 11:30am CST), X12 APS March Meeting 2020 Volume 65, Number 1 Monday–Friday, March 2–6, 2020; Denver, Colorado Chair: Stephen Monismith, Stanford University On Demand On Demand Invited Speakers:  Lydia Bourouiba, P01 Turbulence: Particle-Laden Flows (3:55pm - 4:40pm CST), Q11 On Demand Geophysical Fluid Dynamics: Air-Sea Interaction (5:45pm - 6:30pm CST), H12 On Demand On Demand Invited Speakers:  Jean-Luc Thiffeault, M03 Experimental Techniques: Laser-Based Diagnostics (8:00am - 8:45am CST), T13 Biological Fluid Dynamics: Locomotion High Reynolds Number Swimming (8:45am - 9:30am CST), U02 On Demand All images are under copyright and of the respective owners. Due to issues related to COVID-19, the in-person annual meeting is cancelled for this year. On Demand Invited (631) 591-4000 Drops: Heat Transfer, Evaporation and Buoyancy Effects (8:00am - 8:45am CST), T07 Computational Fluid Dynamics: RANS Modeling (5:00pm - 5:45pm CST), R09 On Demand Submit a Manuscript Invited Student Lunch Networking II (12:45pm - 2:15pm CST), L04 On Demand Non-Newtonian Flows: Instability and Turbulence (8:45am - 9:30am CST), K13 On Demand On Demand APS -2020 Fall Meeting of the APS Division of Nuclear Physics - Epitome 2020 Fall Meeting of the APS Division of Nuclear Physics Thursday–Sunday, October 29–November 1 2020; Time Zone: Central Time, USA On Demand On Demand (202) 662-8700, 1 Physics Ellipse, College Park, MD 20740-3844, 529 14th St NW, Suite 1050, Washington, D.C. 20045-2001, Mini-Symposium: Fluid Mechanics of Infectious Diseases, Mini-Symposium: Wind Energy Fluid Mechanics, Awards Session: Presentation of Awards and DFD Fellowships; Otto Laporte Lecture; Stanley Corrsin Award Lecture, Women in Fluids Networking Lunch (12:45pm - 2:45pm CST), Invited Talk: Viscous Fingering Instabilities: From Suppression to Disorder, Invited Talk: Brain Cerebrospinal Fluid Flow, Invited Talk: Boundary Zonal Flows in Rotating Rayleigh-Benard Convection and Other Turbulent Convective Superstructures, Invited Talk: Vegetation Hydrodynamics for Climate Mitigation and Adaptation, Invited Talk: Space-Time Energy Spectra in Turbulent Flows, Focus Session: Understanding Thermal Transport in Flows of Dense Suspensions (3:10pm - 3:55pm CST), Acoustics: Hydroacoustics and General (3:10pm - 3:55pm CST), Acoustics: Aeroacoustics (3:10pm - 3:55pm CST), Acoustics: Thermoacoustics (3:10pm - 3:55pm CST), Astrophysical Fluid Dynamics (3:10pm - 3:55pm CST), Biological Fluid Dynamics: Collective Behavior and Microswimmers (3:10pm - 3:55pm CST), Boundary Layers: Compressible and Thermal (3:10pm - 3:55pm CST), Boundary Layers: Turbulent Boundary Layers (3:10pm - 3:55pm CST), Boundary Layers: Turbulent Boundary Layers Wall Modeling (3:10pm - 3:55pm CST), Boundary Layers: Turbulent Boundary Layers Curvature and Pressure Gradient Effects (3:10pm - 3:55pm CST), Bubbles: Acoustics and General (3:55pm - 4:40pm CST), Bubbles: Cavitation, Nucleation, Collapse, Coalescence (3:55pm - 4:40pm CST), Bubbles: Biomedical, Cavitation and Acoustics (3:55pm - 4:40pm CST), Compressible Flows: Supersonic, Hypersonic and General (3:55pm - 4:40pm CST), Compressible Flow: Shock Waves and Explosions (3:55pm - 4:40pm CST), Compressible Flow: Shock Interactions and Focusing (3:55pm - 4:40pm CST), Compressible Flow: Turbulence and Instability (3:55pm - 4:40pm CST), Compressible Flow: Shock-Boundary Layer Interactions (3:55pm - 4:40pm CST), Computational Fluid Dynamics: General (3:55pm - 4:40pm CST), Computational Fluid Dynamics: Algorithms (3:55pm - 4:40pm CST), Computational Fluid Dynamics: DG and Higher Order Schemes (3:55pm - 4:40pm CST), Computational Fluid Dynamics: Immersed Boundary Methods (3:55pm - 4:40pm CST), Computational Fluid Dynamics: Applications (3:55pm - 4:40pm CST), Convection and Buoyancy-Driven Flows: Heat Transfer and Forced Convection (3:55pm - 4:40pm CST), Convection and Buoyancy-Driven Flows: Environmental (3:55pm - 4:40pm CST), Convection and Buoyancy-Driven Flows: Free-Convection and Rayleigh-Benard (3:55pm - 4:40pm CST), Drops: Impact, Bouncing, Wetting and Spreading (5:00pm - 5:45pm CST), Electrokinetic Flows (5:00pm - 5:45pm CST), Flow Control: General (5:00pm - 5:45pm CST), Flow Control: Actuator Design and Analysis (5:00pm - 5:45pm CST), Flow Control: Coherent Structures, Vortices and Turbulence (5:00pm - 5:45pm CST), Flow Control: Drag Reduction (5:00pm - 5:45pm CST), Flow Control: Passive (5:00pm - 5:45pm CST), Flow Control: Plasma Actuators (5:00pm - 5:45pm CST), Biological Fluid Dynamics: Physiological Respiratory Flows (5:45pm - 6:30pm CST), Biological Fluid Dynamics: Physiological Lymphatic and CSF Flows (5:45pm - 6:30pm CST), Biological Fluid Dynamics: Physiological Phonation and Speech (5:45pm - 6:30pm CST), Flow Instability: General (5:45pm - 6:30pm CST), Flow Instability: Boundary Layers (5:45pm - 6:30pm CST), Flow Instability: Control (5:45pm - 6:30pm CST), Flow Instability: Elastic and Complex Fluids and Geophysical (5:45pm - 6:30pm CST), Flow Instability: Global Modes (5:45pm - 6:30pm CST), Geophysical Fluid Dynamics: General (5:45pm - 6:30pm CST), Geophysical Fluid Dynamics: Oceanographic (5:45pm - 6:30pm CST), Geophysical Fluid Dynamics: Air-Sea Interaction (5:45pm - 6:30pm CST), Geophysical Fluid Dynamics: Atmospheric (5:45pm - 6:30pm CST), Geophysical Fluid Dynamics: Rotating Flows (5:45pm - 6:30pm CST), Granular Flows: General (5:45pm - 6:30pm CST), Granular Flows: Mixing, Segregation and Separation (5:45pm - 6:30pm CST), Student Breakfast Networking I (7:00am-8:30am CST), Focus Session: Fluid Dynamics in a Deformable Porous Medium (8:00am - 8:45am CST), Jets: Impinging, Swirling, and General (8:00am - 8:45am CST), Magnetohydrodynamics (8:00am - 8:45am CST), Microscale Flows: General (8:00am - 8:45am CST), Microscale Flows: Devices (8:00am - 8:45am CST), Microscale Flows: Particles, Drops, Bubbles (8:00am - 8:45am CST), Microscale Flows: Electrokinetics (8:00am - 8:45am CST), Microscale Flows: Emulsions (8:00am - 8:45am CST), Multiphase Flows: Bubbly Flows (8:00am - 8:45am CST), Multiphase Flows: Cavitation and Aerated Flows (8:00am - 8:45am CST), Multiphase Flows: Computational Methods (8:00am - 8:45am CST), Nano Flows: General (8:00am - 8:45am CST), Nano Flows: Basic Physics (8:00am - 8:45am CST), Nano Flows: Computations and Modeling (8:00am - 8:45am CST), Nano Flows: Membranes (8:00am - 8:45am CST), Biological Fluid Dynamics: Biofilms (8:45am - 9:30am CST), Biological Fluid Dynamics: Flows in Fluid Films and Biofilms (8:45am - 9:30am CST), Biological Fluid Dynamics: Flows Involving Vesicles and Micelles (8:45am - 9:30am CST), Biological Fluid Dynamics: Single Cells and Bacteria (8:45am - 9:30am CST), Biological Fluid Dynamics: Plant Biomechanics (8:45am - 9:30am CST), Nonlinear Dynamics: General (8:45am - 9:30am CST), Nonlinear Dynamics: Chaos (8:45am - 9:30am CST), Nonlinear Dynamics: Coherent Structures (8:45am - 9:30am CST), Nonlinear Dynamics: Model Reduction (8:45am - 9:30am CST), Non-Newtonian Flows: General (8:45am - 9:30am CST), Non-Newtonian Flows: Rheology (8:45am - 9:30am CST), Non-Newtonian Flows: Instability and Turbulence (8:45am - 9:30am CST), Non-Newtonian Flows: Polymer Solutions (8:45am - 9:30am CST), Porous Media Flows: General (8:45am - 9:30am CST), Porous Media Flows: Convection and Heat Transfer (8:45am - 9:30am CST), Porous Media Flows: Mixing and Turbulence (8:45am - 9:30am CST), Porous Media Flows: Displacement of Immiscible Fluids (8:45am - 9:30am CST), Mini-Symposium: Fluid Dynamics of Atmospheric Clouds, Student Lunch Networking II (12:45pm - 2:15pm CST), Young Investigators Workshop (12:45pm - 2:15pm CST), Invited Talk: The Mechanics of Capillary Assemblies, Invited Talk: Stirring by Microswimmers and their Interaction with Boundaries, Invited Talk: From Limited Observations to the State of Turbulence: Fundamental Difficulties of Flow Reconstruction, Invited Talk: MythBusters: Smoothed Particle Hydrodynamics in Astrophysics and Engineering, Invited Talk: On Fake Walls Along the USA/Mexico Border, Invited Talk: The Fluid Dynamics of Disease Transmission, Reacting Flows: General and Experiments (3:10pm - 3:55pm CST), Reacting Flows: Turbulent Combustion (3:10pm - 3:55pm CST), Reacting Flows: DNS and LES (3:10pm - 3:55pm CST), Reacting Flows: Theory, Modeling, and Simulations (3:10pm - 3:55pm CST), Reacting Flows: Computational Methods (3:10pm - 3:55pm CST), Suspensions: General (3:10pm - 3:55pm CST), Suspensions: Confined Flows (3:10pm - 3:55pm CST), Suspensions: Rheology (3:10pm - 3:55pm CST), Suspensions: Fluid-Particle Interaction (3:10pm - 3:55pm CST), Suspensions: Instability (3:10pm - 3:55pm CST), Surface Tension Effects: General (3:10pm - 3:55pm CST), Surface Tension Effects: Interfacial Phenomena (3:10pm - 3:55pm CST), Turbulence: General (3:10pm - 3:55pm CST), Turbulence: Boundary Layers (3:10pm - 3:55pm CST), Turbulence: Compressible (3:10pm - 3:55pm CST), Turbulence: Environmental Flows (3:10pm - 3:55pm CST), Turbulence: Stratification, Rotation and Magnetic Fields (3:10pm - 3:55pm CST), Vortex Dynamics and Vortex Flows: General (3:10pm - 3:55pm CST), Vortex Dynamics and Vortex Flows: Instability (3:10pm - 3:55pm CST), Vortex Dynamics and Vortex Flows: Theory (3:10pm - 3:55pm CST), Fluid Dynamics - Education, Outreach and Diversity (3:55pm - 4:40pm CST), Aerodynamics: Fluid Structure Interactions, Membranes, Flutter (3:55pm - 4:40pm CST), Biological Fluid Dynamics: Locomotion (3:55pm - 4:40pm CST), Boundary Layers: General (3:55pm - 4:40pm CST), Boundary Layers: Flow Over Roughness Elements (3:55pm - 4:40pm CST), Boundary Layers: Superhydrophobic Surfaces (3:55pm - 4:40pm CST), Boundary Layers: Wind Turbine Interaction (3:55pm - 4:40pm CST), Turbulence: Multiphase Flow (3:55pm - 4:40pm CST), Turbulence: Particle-Laden Flows (3:55pm - 4:40pm CST), Waves: Internal and Interfacial Waves and General (3:55pm - 4:40pm CST), Waves: Surface Waves (3:55pm - 4:40pm CST), Focus Session: Deep Learning in Experimental and Computational Fluid Mechanics (Part I) (5:00pm - 5:45pm CST), Bubbles: Growth, Heat Transfer and Boiling (5:00pm - 5:45pm CST), Bubbles: Microbubbles and Nanobubbles and Rupture (5:00pm - 5:45pm CST), Bubbles: Surfactants and Foams (5:00pm - 5:45pm CST), Computational Fluid Dynamics: LBM (5:00pm - 5:45pm CST), Computational Fluid Dynamics: LES, DNS, Hybrid RANS/LES (5:00pm - 5:45pm CST), Computational Fluid Dynamics: RANS Modeling (5:00pm - 5:45pm CST), Computational Fluid Dynamics: SPH and Mesh Free Methods (5:00pm - 5:45pm CST), Computational Fluid Dynamics: Uncertainty Quantification (5:00pm - 5:45pm CST), Particle-Laden Flows: General (5:00pm - 5:45pm CST), Particle-Laden Flows: Clustering (5:00pm - 5:45pm CST), Particle-Laden Flows: Particle-Turbulence Interaction (5:00pm - 5:45pm CST), Particle-Laden Flows: Turbulence Modulation (5:00pm - 5:45pm CST), Focus Session: Deep Learning in Experimental and Computational Fluid Mechanics (Part II) (5:45pm - 6:30pm CST), Aerodynamics: Fixed, Flapping and Rotating Wings (5:45pm - 6:30pm CST), Drops: Instability and Break-Up (5:45pm - 6:30pm CST), Drops: Multiple Drop Interactions (5:45pm - 6:30pm CST), Turbulence: Shear Layers (5:45pm - 6:30pm CST), Turbulence: Wall-Bounded Flows (5:45pm - 6:30pm CST), Tutorials for Authors and Referees (6:30pm - 8:00pm CST), Student Dinner Networking (6:30pm - 8:00pm CST), Convection and Buoyancy-Driven Flows: General (8:00am - 8:45am CST), Convection and Buoyancy-Driven Flows: Thermal Instability (8:00am - 8:45am CST), Convection and Buoyancy-Driven Flows: Turbulent Convection (8:00am - 8:45am CST), Drops: Dynamic Surface Interactions (8:00am - 8:45am CST), Drops: Interaction with Elastic Surfaces, Particles and Fibers (8:00am - 8:45am CST), Drops: Heat Transfer, Evaporation and Buoyancy Effects (8:00am - 8:45am CST), Experimental Techniques: General (8:00am - 8:45am CST), Experimental Techniques: Aerodynamics/Wind Tunnel (8:00am - 8:45am CST), Experimental Techniques: Quantitative Flow Visualization. Flow Instability: Nonlinear Dynamics (12:15pm - 1:00pm CST), Z07 by maggiegazzola@gmail.com. On Demand On Demand Vortex Dynamics and Vortex Flows: Instability (3:10pm - 3:55pm CST), P20 From SMS to IPO. On Demand Boundary Layers: Wind Turbine Interaction (3:55pm - 4:40pm CST), Q08 Aerodynamics: Wind Energy (10:00am - 10:45am CST), W06 Flow Instability: Multiphase Flow (8:00am - 8:45am CST), U01 On Demand On Demand Biological Fluid Dynamics: Locomotion Active Suspensions (8:45am - 9:30am CST), U04 Reacting Flows: Emissions and Soot (12:15pm - 1:00pm CST), Z16 Boundary Layers: Turbulent Boundary Layers Wall Modeling (3:10pm - 3:55pm CST), E10 Any cookies that may not be particularly necessary for the website to function and is used specifically to collect user personal data via analytics, ads, other embedded contents are termed as non-necessary cookies. We thank Gabriel Juarez and Azar Eslam-Panah for allowing us to use their picture on the DFD 2020 website. 529 14th St NW, Suite 1050, Washington, D.C. 20045-2001 PIV, PTV, PLIF (8:00am - 8:45am CST), Experimental Techniques: Microscale (8:00am - 8:45am CST), Experimental Techniques: Multiphase Flow (8:00am - 8:45am CST), Experimental Techniques: Laser-Based Diagnostics (8:00am - 8:45am CST), Flow Instability: Interfacial and Thin Film (8:00am - 8:45am CST), Flow Instability: Interfacial and Thin Film Fingering, Elasticity, and Substitutes (8:00am - 8:45am CST), Flow Instability: Multiphase Flow (8:00am - 8:45am CST), Biological Fluid Dynamics: Locomotion High Reynolds Number Swimming (8:45am - 9:30am CST), Biological Fluid Dynamics: Locomotion Flagella and Cilia (8:45am - 9:30am CST), Biological Fluid Dynamics: Locomotion Active Suspensions (8:45am - 9:30am CST), Biological Fluid Dynamics: Locomotion Non-Newtonian Fluids (8:45am - 9:30am CST), Geophysical Fluid Dynamics: Stratified Flows (8:45am - 9:30am CST), Geophysical Fluid Dynamics: Sediment Transport (8:45am - 9:30am CST), Geophysical Fluid Dynamics: Cryosphere (8:45am - 9:30am CST), Microscale Flows: Interfaces and Wetting (8:45am - 9:30am CST), Microscale Flows: Locomotion (8:45am - 9:30am CST), Microscale Flows: Mixing and Chemical Reactions (8:45am - 9:30am CST), Microscale Flows: Oscillations (8:45am - 9:30am CST), Microscale Flows: Porous Media and Porous Electrodes (8:45am - 9:30am CST), Microscale Flows: Non-Newtonian Fluids (8:45am - 9:30am CST), Award Talk: The Andreas Acrivos Dissertation Award, Award Talk: The Francois N. Frenkiel Award, Aerodynamics: General (10:00am - 10:45am CST), Aerodynamics: Control (10:00am - 10:45am CST), Aerodynamics: Theory (10:00am - 10:45am CST), Aerodynamics: Vehicles (10:00am - 10:45am CST), Aerodynamics: Wind Energy (10:00am - 10:45am CST), Biological Fluid Dynamics: Physiological (10:00am - 10:45am CST), Biological Fluid Dynamics: Physiological Cardiac Flows (10:00am - 10:45am CST), Biological Fluid Dynamics: Physiological Microcirculation (10:00am - 10:45am CST), Biological Fluid Dynamics: Physiological Large Vessels (10:00am - 10:45am CST), General Fluid Dynamics (10:00am - 10:45am CST), General Fluid Dynamics: Rotating Flows (10:00am - 10:45am CST), General Fluid Dynamics: Theory (10:00am - 10:45am CST), General Fluid Dynamics: Viscous Flows (10:00am - 10:45am CST), General Fluid Dynamics: Drag Reduction (10:00am - 10:45am CST), General Fluid Dynamics: Obstacles, Flow Constrictions (10:00am - 10:45am CST), General Fluid Dynamics: Mathematical Methods (10:00am - 10:45am CST), General Fluid Dynamics: Multi-Physics Phenomena (10:00am - 10:45am CST), TSI Workshop: New seeding approaches for planar and volumetric velocity measurements, Cambridge University Press Workshop: Fluid Mechanics at Cambridge University Press, Biological Fluid Dynamics: General (10:45am - 11:30am CST), Biological Fluid Dynamics: Flying (10:45am - 11:30am CST), Free-Surface Flows: General (10:45am - 11:30am CST), Free-Surface Flows: Interaction with Physical Structures (10:45am - 11:30am CST), Multiphase Flows: General (10:45am - 11:30am CST), Multiphase Flows: Modeling and Theory (10:45am - 11:30am CST), Multiphase Flows: Particle-Laden Flows (10:45am - 11:30am CST), Multiphase Flows: Turbulence (10:45am - 11:30am CST), Turbulence: DNS Simulations (10:45am - 11:30am CST), Turbulence: LES Simulations (10:45am - 11:30am CST), Turbulence: Modeling & Simulations (10:45am - 11:30am CST), Turbulence: Theory (10:45am - 11:30am CST), Turbulence: Measurements (10:45am - 11:30am CST), Biological Fluid Dynamics: Medical Devices (11:30am - 12:15pm CST), Biological Fluid Dynamics: Pumping Phenomena (11:30am - 12:15pm CST), Nonlinear Dynamics: Transition to Turbulence (11:30am - 12:15pm CST), Nonlinear Dynamics: Turbulence (11:30am - 12:15pm CST), Particle-Laden Flows: Non-Spherical Particles (11:30am - 12:15pm CST), Particle-Laden Flows: Deformable Particles (11:30am - 12:15pm CST), Particle-Laden Flows: Particle-Resolved Simulations (11:30am - 12:15pm CST), Particle-Laden Flows: Simulations (11:30am - 12:15pm CST), Separated Flows: General (11:30am - 12:15pm CST), Separated Flows: Wakes (11:30am - 12:15pm CST), Vortex Dynamics and Vortex Flows: Wakes (11:30am - 12:15pm CST), Vortex Dynamics and Vortex Flows: Simulations (11:30am - 12:15pm CST), Drops: Particle Laden (12:15pm - 1:00pm CST), Drops: Complex Fluids (12:15pm - 1:00pm CST), Drops: Sessile and Static Surface Interactions (12:15pm - 1:00pm CST), Drops: Electric Field Effects (12:15pm - 1:00pm CST), Flow Instability: Nonlinear Dynamics (12:15pm - 1:00pm CST), Flow Instability: Kelvin-Helmholtz (12:15pm - 1:00pm CST), Flow Instability: Rayleigh-Taylor (12:15pm - 1:00pm CST), Flow Instability: Richtmyer-Meshkov (12:15pm - 1:00pm CST), Flow Instability: Transition to Turbulence (12:15pm - 1:00pm CST), Reacting Flows: Extinction and Ignition and Chemical Kinetics (12:15pm - 1:00pm CST), Reacting Flows: Instabilities (12:15pm - 1:00pm CST), Reacting Flows: Detonations, Explosions and DDT (12:15pm - 1:00pm CST), Reacting Flows: Sprays and Multiphase Flow Effects (12:15pm - 1:00pm CST), Reacting Flows: Emissions and Soot (12:15pm - 1:00pm CST), Underrepresented Minorities in Research Networking (1:00pm - 2:30pm CST). Experimental Techniques: Multiphase Flow (8:00am - 8:45am CST), T12 Geophysical Fluid Dynamics: Oceanographic (5:45pm - 6:30pm CST), H11 Turbulence: DNS Simulations (10:45am - 11:30am CST), X10 On Demand On Demand On Demand Compressible Flow: Turbulence and Instability (3:55pm - 4:40pm CST), F08 On Demand Live Invited Talk: From Limited Observations to the State of Turbulence: Fundamental Difficulties of Flow Reconstruction Manchester On Demand | Contact Us, Headquarters On Demand Computational Fluid Dynamics: Algorithms (3:55pm - 4:40pm CST), F11 On Demand November 16-20, 2020 Postponed until November 15-19, 2021 Tokyo, Japan. On Demand Word Search. On Demand advance the knowledge of physics. Particle-Laden Flows: Deformable Particles (11:30am - 12:15pm CST), Y07 Turbulence: Multiphase Flow (3:55pm - 4:40pm CST), Q10 On Demand Invited Talk: Vegetation Hydrodynamics for Climate Mitigation and Adaptation Turbulence: General (3:10pm - 3:55pm CST), P14 Chair: Jonathan W. Naughton, University of Wyoming; Charles Meneveau, Johns Hopkins University, B01 On Demand On Demand On Demand On Demand Vortex Dynamics and Vortex Flows: Theory (3:10pm - 3:55pm CST), Q01

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