Engineering
Particle Suspension
100%
Lattice-Boltzmann Method
94%
Direct Numerical Simulation
44%
Uncertainty Quantification
33%
Lattice Boltzmann Model
33%
Petroleum Industry
33%
Complex Fluid
33%
Scale Model
33%
Graphics Processing Unit
33%
Macroscale
33%
Brownian Particle
33%
Hydraulic Fracturing
33%
Boltzmann Equation
33%
Suspension Flow
27%
Proppants
25%
Boundary Condition
25%
Local Method
22%
Relative Viscosity
22%
Flow Simulation
22%
High Reynolds Number
22%
Interface Condition
16%
Shear Stress Distribution
16%
Wall Shear Stress
16%
Risk Region
16%
Inlet Velocity
16%
Output Quantity
16%
Energy Formulation
16%
Solid Particle
16%
Fluid Phase
16%
Illustrates
16%
Dynamic Case
11%
Parametric Sweep
11%
Thermal Influence
11%
Gas Reservoir
11%
Fracture Propagation
11%
Particle Charge
11%
Lorentz Force
11%
Channel Flow
11%
Aerodynamics
11%
Simulation Mode
11%
Industrial Research
11%
Computational Fluid Dynamics
11%
Simulation Result
11%
Industrial Applications
11%
Conservation Equation
8%
Fracture Network
8%
Fracturing Process
8%
Proppant Particle
8%
Electrostatic Force
8%
Suspension Rheology
8%
Material Science
Lattice-Boltzmann Method
84%
Discrete Element Method
44%
Materials Property
33%
Large Eddy Simulation
33%
Solid Mechanics
33%
Hydraulics
33%
Hydrodynamics
33%
Complex Fluid
33%
Viscosity
16%
Particle Property
16%
Suspension Rheology
16%
Fluid Dynamics
16%
Volume Fraction
16%
Material Processing
16%
Fluid Mechanics
11%
Particle Motion
8%
Computational Fluid Dynamics
6%