Engineering
Blast Furnace
100%
Models
85%
Porosity
42%
Experiments
42%
Temperature
28%
Simulation
28%
Laboratories
14%
Steel Making
14%
Experimental Result
14%
Particle Density
14%
Reductants
14%
Throughput
14%
Hot Metal
14%
Good Agreement
14%
Thermal Efficiency
14%
Production Unit
14%
Flow Condition
14%
Mass Ratio
14%
Physical Parameter
14%
Shear Modulus
14%
Spherical Particle
14%
Flow Distribution
14%
Ore Particle
14%
Initial Distribution
14%
Burden Material
14%
Simulated Result
14%
Countercurrent Flow
14%
Numerical Model
14%
Key Physical Parameter
14%
Shape Parameter
14%
Numerical Study
14%
Ascending Gas
14%
Properties
14%
Demonstrates
14%
Prediction
14%
Reduction
14%
Iron
14%
Efficiency
14%
Accuracy
14%
Processing
14%
Determines
14%
Small Scale
14%
Forming
14%
Low Rate
14%
Physics
Model
85%
Porosity
42%
Particle
42%
Minerals
28%
Temperature
28%
Simulation
28%
Independent Variables
28%
Gases
28%
Throats
28%
Bells
28%
Numerical Model
14%
Flow Distribution
14%
Modulus of Elasticity
14%
Shapes
14%
Ratios
14%
Focusing
14%
Raw Material
14%
Coefficients
14%
Solid State
14%
Speed
14%
Emission
14%
Thermodynamic Efficiency
14%
Iron
14%
Computational Fluid Dynamics
14%
Spheres
14%
Gas Flow
14%
Poisson Ratio
14%
Shear Modulus
14%
Chemistry
Blast Furnace
100%
Rate
57%
Porosity
42%
Shaft
42%
Iron Ore
28%
Procedure
28%
Reaction Temperature
28%
Simulation
28%
Gas
28%
Shape
14%
Particle Density
14%
Velocity
14%
Cylinder
14%
Poisson Ratio
14%
Energy Consumption
14%
Shear Modulus
14%
Coefficient of Restitution
14%
Structure
14%
Solid
14%
Industry
14%
Length
14%
Sphere
14%
Material Science
Coke
42%
Void Fraction
42%
Rolling Friction
28%
Gas
28%
Elastic Moduli
14%
Particle Shape
14%
Poisson Ratio
14%
Raw Material
14%
Solid
14%
Earth and Planetary Sciences
Bell
28%
Cone
14%
Model Validation
14%
Shear Modulus
14%
Poisson Ratio
14%