List of Sessions
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1.1 Numerical Methods for High Speed Flows I |
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1.2 Numerical Methods for High Speed Flows II |
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1.3 MS03 Towards Industrial Application of Higher Order Methods: Part I |
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1.4 MS03 Towards Industrial Application of Higher Order Methods: Part II |
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1.5 MS03 Towards Industrial Application of Higher Order Methods: Part III |
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1.6 STS I: Innovative Digital Optimization and
Control Technologies for Greener |
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1.7 STS II: Multiphysics - Multicomponents Simulations and Optimization Techniques for Propulsion Applications |
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1.8 MS02 Algorithms for Multi-Scale Low Mach Number Flows |
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1.9 MS11 GPU Computing in CFD: Part I |
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1.10 MS11 GPU Computing in CFD: Part II |
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2.1 Computational Electromagnetics I |
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2.2 Computational Electromagnetics II |
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2.3 Shape Optimization |
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2.4 Optimization and Control I |
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2.5 Optimization and Control II |
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2.6 Adaptive Grids I |
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2.7 MS29 Transition and Laminar Flow Control |
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2.8 Numerical Methods IV |
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2.9 Numerical Methods V |
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2.10 Numerical Methods VI |
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3.1 MS12 Numerical Modelling of Waves Interacting with Coastal Structures |
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3.2 MS23 Modelling of Contact Line Dynamics |
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3.3 Flows with Heat Transfer I |
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3.4 Flows with Heat Transfer II |
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3.5 Flows with Heat Transfer III |
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3.6 Fluid-Structure Interaction |
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3.7 MS27 Monolithic Models and Solvers for Fluid-Structure Interaction Problems |
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3.8 MS20 Stratified Flows Modelling for Environmental Problems |
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3.9 CFD for Marine Applications I |
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3.10 CFD for Marine Applications II |
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4.1 MS18 Reliable Numerical Methods for Atmosphere and Ocean Models: Part I |
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4.2 MS18 Reliable Numerical Methods for Atmosphere and Ocean Models: Part II |
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4.3 MS22 Regularization Models of Incompressible Flows |
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4.4 MS32 New Trends on Diffusion Phenomena |
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4.5 Computational Problems in Microfluidics |
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4.6 MS24 Computational Atmosphere and Ocean Dynamics |
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4.7 MS07 Computational Wind-Farm-Wake Aerodynamics |
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4.8 MS25 Recent Development in Turbomachinery CFD for Industrial Applications: TRACE |
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4.9 Turbomachines I |
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4.10 Turbomachines II |
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5.1 Gas-Liquid Interfaces |
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5.2 Multiphase Flows I |
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5.3 Multiphase Flows II |
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5.4 Gas Particle Flows I |
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5.5 Gas Particles Flows II |
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5.6 Moving Boundary Problems I |
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5.7 Moving Boundary Problems II |
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5.8 Adaptive Grids II |
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5.9 MS28 Aerodynamic Analysis of Flapping Wings: Part I |
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5.10 MS28 Aerodynamic Analysis of Flapping Wings: Part II |
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6.1 MS17 Combustion |
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6.2 Combustion and Reactive Flows I |
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6.3 Combustion and Reactive Flows II |
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6.4 MS13 Non-Deterministic Simulation in CFD: Part I |
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6.5 MS13 Non-Deterministic Simulation in CFD: Part II |
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6.6 MS01 Adjoint Methods in Industrial CFD Optimisation: Part I |
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6.7 MS01 Adjoint Methods in Industrial CFD Optimisation: Part II |
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6.8 Flow in Porous Media |
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6.9 Vehicles and Traffic I |
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6.10 Vehicles and Traffic II |
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7.1 MS06 Model Order Reduction in Complex Systems in CFD: Part I |
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7.2 MS06 Model Order Reduction in Complex Systems in CFD: Part II |
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7.3 Numerical Methods I |
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7.4 Numerical Methods II |
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7.5 Numerical Methods III |
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7.6 Hybrid RANS/LES I |
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7.7 MS15 Verification and Validation |
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7.8 Immersed Boundary Methods |
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7.9 MS05 Inverse Techniques in CFD: Part I |
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7.10 MS05 Inverse Techniques in CFD: Part II |
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8.1 Computational Acoustics I |
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8.2 Computational Acoustics II |
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8.3 MS36 Implicit Solution Methods for MHD Systems |
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8.4 Shallow Water Flows |
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8.5 Free Surface Flows |
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8.6 MS04 Computational Fluid Dynamics with OpenFOAM: Part I |
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8.7 MS04 Computational Fluid Dynamics with OpenFOAM: Part II |
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8.8 Parallel Computing |
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8.9 MS19 Shallow Water Models for Environmental Flows: Part I |
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8.10 MS19 Shallow Water Models for Environmental Flows: Part II |
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9.1 MS35 Discontinuous Galerkin Methods: Part I |
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9.2 MS35 Discontinuous Galerkin Methods: Part II |
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9.3 MS09 Current Trends in Modelling and Simulation of Turbulent Flows: Part I |
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9.4 MS09 Current Trends in Modelling and Simulation of Turbulent Flows: Part II |
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9.5 MS09 Current Trends in Modelling and Simulation of Turbulent Flows: Part III |
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9.6 DNS/LES I |
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9.7 DNS/LES II |
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9.8 DNS/LES III |
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9.9 DNS/LES IV |
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9.10 Hybrid RANS/LES II |
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10.1 Physiological Flows I |
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10.2 MS14 Bioflows in the Airways |
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10.3 MS33 Computational Methods Applied to Aneurysms and their Treatment: Part I |
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10.4 MS33 Computational Methods Applied to Aneurysms and their Treatment: Part II |
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10.5 MS31 Numerical Methods for Viscoelastic Fluids |
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10.6 Physiological Flows II |
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10.7 Physiological Flows III |
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10.8 MS16 Lattice Boltzmann, Particle Methods and Experiments of Complex Physiological Flows: Part I |
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10.9 MS16 Lattice Boltzmann, Particle Methods and Experiments of Complex Physiological Flows: Part II |
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10.10 MS16 Lattice Boltzmann, Particle Methods and Experiments of Complex Physiological Flows: Part III |
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11.1 MS30 Modern Programming Techniques for Numerical Analysis Software |
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11.2 MS10 Image Processing and Visualization |
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11.3 MS34 Mathematical and Numerical Aspects of the Motion of Viscous Fluids |
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11.4 RANS Models for Turbulent Flows I |
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11.5 RANS Models for Turbulent Flows II |
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11.6 Non-Newtonian Flows |
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11.7 MS26 Iterative Methods for Incompressible Flows |
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11.8 MS08 CFD in Fire and Fire Safety Research |
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11.9 MS21 Ventilation and Smoke Control in Underground Space |
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11.10 MS21 Ventilation and Smoke Control in Underground Space |