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Meshless methods for ‘gas ‐ evaporating droplet’ flow modelling
Oyuna Rybdylova
,
Sergei Sazhin
University of Brighton
Advanced Engineering Centre
Research output
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Dive into the research topics of 'Meshless methods for ‘gas ‐ evaporating droplet’ flow modelling'. Together they form a unique fingerprint.
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Keyphrases
Analytical Solution
33%
Biot-Savart
33%
Blob
100%
Carrier Phase
66%
Cold Jet
33%
Dispersed Phase
66%
Droplet Evaporation
100%
Droplet Flow
100%
Droplet Size
33%
Eulerian
33%
Flow Modeling
100%
Flow Parameters
33%
Flow Pattern
33%
Flow-based
33%
Free Vortex
33%
Gas Velocity
33%
Hot Gas
33%
Lagrangian Approach
33%
Lagrangian Grid
33%
Lagrangian Method
66%
Lamb
33%
Large Droplets
66%
Low Inertia
33%
Main Idea
33%
Meshless
33%
Meshless Method
100%
Non-isothermal
66%
Numerical Algorithms
33%
Phase Transition
33%
Remeshing Procedure
33%
Ring-like Structures
33%
System of Ordinary Differential Equations
33%
Transition-based
33%
Two-fluid Approach
33%
Two-phase Flow
33%
Two-phase Region
33%
Velocity Field
33%
Vortex
66%
Vortex Blob
33%
Vortex Pair
33%
Engineering
Carrier Phase
50%
Dispersed Phase
50%
Droplet Size
25%
Flow Distribution
25%
Flow Parameters
25%
Free Vortex
25%
Gas Velocity
25%
Hot Gas
25%
Isothermal
50%
Lagrangian Approach
25%
Lagrangian Method
50%
Main Idea
25%
Meshless Method
100%
Size Droplet
25%
Transients
25%
Two-Phase Flow
25%
Two-Phase Region
25%
Velocity Field
25%
Vortex
100%