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Large eddy simulation of turbulent gas-droplet flows using the fully Lagrangian approach
Chris Stafford
,
Oyuna Rybdylova
School of Arch, Tech and Eng
Advanced Engineering Centre
Research output
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Contribution to conference
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Abstract
›
peer-review
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Dive into the research topics of 'Large eddy simulation of turbulent gas-droplet flows using the fully Lagrangian approach'. Together they form a unique fingerprint.
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Keyphrases
Computational Economy
20%
Continuity Equation
20%
Continuum Representation
20%
Density Field
40%
Density-based
20%
Drift Effect
20%
Droplet Density
40%
Droplet Motion
20%
Droplet Phase
60%
Fluid Velocity
40%
Fluid Velocity Field
20%
Fully Lagrangian Approach
100%
Gas-droplet Flow
100%
High-resolution
20%
Individual Droplets
20%
Inertia
20%
Lagrangian Form
20%
Lagrangian Trajectories
20%
Large Eddy Simulation
100%
Mass Flux
20%
Mesoscopic
20%
Number Density
40%
PDF Approach
20%
Phase Continuity
20%
Range of Values
20%
Splitting Method
20%
Structural Behavior
20%
Subgrid Scale
40%
Turbulent Flow
20%
Turbulent Velocity
20%
Velocity Field
20%
Velocity Fluctuation
20%
Engineering
Continuity Equation
20%
Droplet Phase
60%
Fluid Velocity
60%
High Resolution
20%
Lagrangian Approach
100%
Mass Transfer
20%
Number Density
80%
Structural Behavior
20%
Turbulent Flow
20%
Turbulent Velocity
20%
Velocity Field
40%
Velocity Fluctuation
20%
Chemical Engineering
Mass Transfer
100%