Keyphrases
Thin Liquid Film
80%
Nonlinear Dynamics
54%
Long Waves
43%
Liquid Layer
38%
Binary Liquids
33%
Soret Effect
32%
Liquid Film
31%
Marangoni Convection
29%
Marangoni Instability
25%
Nonlinear Evolution Equations
24%
Linear Stability Analysis
24%
Evolution Equations
21%
Solid Substrate
19%
Bifurcation
18%
Traveling Wave
17%
Long-wave Marangoni Instability
17%
Two Dimensional
16%
Falling Liquid Film
16%
Cylindrical Surface
16%
Temperature Gradient
15%
Surface Tension
14%
Benney Equation
13%
Thermocapillary Instability
13%
Biot number
13%
Rayleigh-Taylor Instability
13%
Spatiotemporal Dynamics
13%
Marangoni Effect
12%
Marangoni number
11%
Film Rupture
11%
Three-dimensional (3D)
11%
Charged Particles
11%
Weighted Residual Method
11%
Integral Boundary Layer
11%
Long-wavelength Approximation
11%
Oscillatory Modes
10%
Base State
10%
Forcing Amplitude
10%
Boundary Layer Model
10%
Long-wave Theory
10%
Thermocapillary Effect
9%
Binary Mixture
9%
Vertical Cylinder
9%
Film Thickness
9%
Free Surface
9%
Weakly Nonlinear Analysis
9%
Pattern Formation
8%
Standing Wave
8%
Nonlinear Evolution
8%
Electrostatic Precipitation
8%
Steady State
8%
Engineering
Liquid Film
100%
Non-Linear Dynamic
48%
Marangoni
41%
Liquid Layer
38%
Oscillatory
35%
Soret Effect
25%
Traveling Wave
21%
Linear Stability Analysis
20%
Marangoni Convection
18%
Film Rupture
16%
Two Dimensional
14%
Harmonics
14%
Flow Rate
13%
Flow Velocity
13%
Thermal Gradient
13%
Marangoni Number
12%
Axisymmetric
11%
Fluid Viscosity
11%
Marangoni Effect
11%
Free Surface
10%
Reynolds' Number
10%
Nonlinear Analysis
10%
Biot Number
10%
Basis State
9%
Convective Cell
8%
Oscillatory Instability
8%
Boundary Layer
8%
Stability Analysis
8%
Standing Wave
8%
Liquid Gas
8%
Linearized Stability
7%
Layer Model
7%
Turbulent Flow
7%
Electrostatic Precipitator
7%
Energy Engineering
7%
Forcing Frequency
7%
Thin Films
7%
Flow Distribution
7%
Solute Concentration
6%
Forcing Amplitude
6%
Disjoining Pressure
6%
Binary Mixture
6%
Heat Flux
6%
Linear Theory
5%
Hydrophobic
5%
Contact Line
5%
Bifurcation Analysis
5%
Temperature Distribution
5%
Fluid Layer
5%
Viscous Stress
5%