Engineering
Atomisation
100%
Eulerian Multi
83%
Continuity Equation
66%
Fluid Model
61%
Dynamic Behavior
55%
Numerical Study
50%
Bubbly Flow
50%
Turbulent Flow
50%
Phase Fraction
44%
Droplet Size
40%
Numerical Model
38%
Fuel Blend
33%
Aviation Fuels
33%
Coherent Structure
33%
Turbulent Kinetic Energy Spectrum
33%
Experimental Measurement
33%
Large Eddy Simulation
33%
Momentum Equation
33%
Class Method
33%
Size Class
33%
Continuous Phase
33%
Source Term
33%
Heavy Oil
33%
Couplings
33%
Flow Field
33%
Turbulence Intensity
33%
Computational Fluid Dynamics
29%
Volume of Fluid Method
25%
Dynamic Models
25%
Liquid Gas
23%
Premixed Turbulent Flame
16%
High Reynolds Number
16%
Jet Velocity
16%
Hot-Wire Anemometry
16%
Internals
16%
Structured Grid
16%
Demonstrates
16%
Convective
16%
Liquid Medium
16%
Centerline
16%
Reactant
16%
Arbitrary Number
16%
Acoustic Field
16%
Bunsen Burner
16%
Flow Condition
16%
Main Flow
16%
Sonotrode
16%
Particle Image Velocimetry
16%
Numerical Approach
16%
Unsteady Flow
16%
Keyphrases
Jet Fuel Components
33%
Sustainable Aviation Fuel
33%
Extreme Turbulence
33%
Turbulent Kinetic Energy Spectra
33%
Hi-Pilot Burner
33%
Cavity Collapse
33%
Phase Continuity
33%
Polydisperse Flow
33%
Cavitation Reactor
33%
Heavy Oil Processing
33%
Dispersing Element
16%
Euler-Euler
16%
Bubble-particle
16%
Droplet Volume
16%
Gas Ejection
16%
Piecewise Linear Interface Reconstruction
16%
Unsteady Flow Separation
16%
Dispersed Flow
16%
Bi-component Droplet
16%
Atomization Regimes
16%
Drainage Velocity
16%
Interface Instability
16%
Non-volatile Liquid
16%
Grid-refinement Study
16%
Implicit Coupling
16%
TOPFLOW
16%
University of Michigan
16%
Evaporating Spray
11%
Non-evaporating
11%
Modern Fuel
11%
Source Nature
11%
Robust Modeling
11%