Engineering
Drag Reduction
100%
Turbulent Flow
59%
Direct Numerical Simulation
51%
Channel Flow
45%
Nanoparticle
44%
Vortex
32%
Gel Transition
22%
Couette Flow
22%
Length Scale
20%
Newtonian Fluid
19%
Velocity Profile
19%
Relaxation Time
19%
Nucleation Site
18%
Active Site
18%
Diffusivity
17%
Non-Linear Dynamic
16%
Simulation Result
16%
Flow Characteristics
15%
Polymer Chain
14%
Constitutive Equation
14%
Diffusion Zone
14%
Effective Mean
14%
Shear Rate
13%
Prandtl Number
13%
Computer Simulation
13%
Electrostatics
12%
Energy Transport
12%
Good Agreement
12%
Oscillatory
12%
Flow Dynamics
12%
Flow in Channels
12%
Extensibility
11%
Radial Basis Function
11%
Granulocyte
11%
Macrophage
11%
Eddy Structure
11%
Double Layer
11%
Energy Engineering
11%
Multiscale
11%
Particle Surface
11%
Layer Interaction
11%
Eddy-Viscosity Model
11%
Diffusive
11%
Polarizability
11%
Swirling Flow
11%
Poiseuille Flow
11%
Hydrodynamic Stability
11%
Stability Boundary
11%
Flow Instability
11%
Microstructure
11%
Keyphrases
Auto-generation
33%
Drag Reduction
26%
Nonlinear Elasticity
25%
Turbulent Drag Reduction
22%
Turbulent Channel Flow
22%
Dilute Polymer Solutions
20%
Vortex
19%
Dynamical Simulation
16%
Turbulent Flow
16%
Hairpin Vortex
15%
Numerical Simulation Data
15%
Direct numerical Simulation
15%
Streamwise Vortices
14%
Relaxation Time
14%
V2F Model
14%
Thermo-reversible
14%
Channel Flow
14%
Microalgae
14%
Dynamical Interaction
14%
Polymer Conformation
14%
Reynolds Stress
14%
Hairpin
14%
Vortical Structures
13%
Surfactant Micelles
11%
Salt Concentration
11%
Vortex Dynamics
11%
Nanoparticle Volume Fraction
11%
Nanoparticle Suspension
11%
Probing Mechanism
11%
Nanoparticles Effect
11%
Charge Anisotropy
11%
Translocation Efficiency
11%
Nanoparticle Shape
11%
Shape Anisotropy
11%
Operator Splitting
11%
Nonlinear Poisson Equation
11%
Fluid Rheology
11%
Radial Basis Function Method
11%
Nanoparticle Charge
11%
Multiscale Simulation
11%
Eddy-viscosity Model
11%
Particle-surface Interactions
11%
DLVO Interaction
11%
Particle Surface
11%
Eddy Structure
11%
Double Layer Interaction
11%
Ionic Strength
11%
Spatiotemporal Evolution
11%
Rupture Mechanism
11%
Turbulent Swirling Flow
11%