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On the mixture model for multiphase flow
Mikko Manninen, Veikko Taivassalo,
Sirpa Kallio
Research output
:
Book/Report
›
Report
135
Citations (Scopus)
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Dive into the research topics of 'On the mixture model for multiphase flow'. Together they form a unique fingerprint.
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Engineering
Dispersed Phase
100%
Multiphase Flow
100%
Momentum Equation
75%
Equation Model
50%
Continuous Phase
50%
Flow Simulation
25%
Applicability
25%
Concentration Gradient
25%
Simplifies
25%
Multiphase System
25%
Algebraic Equation
25%
Simple Approach
25%
Characteristic Time
25%
Computational Effort
25%
Phase Flow
25%
Single-Phase System
25%
Field Equation
25%
Rotational Flow
25%
Additional Term
25%
Relative Velocity
25%
Viscous Stress
25%
Phase Simulation
25%
Turbulent Stress
25%
Hydrodynamics
25%
Turbulent Flow
25%
Terminal Velocity
25%
Particle Density
25%
Keyphrases
Multiphase Flow
100%
Mixture Model
100%
Dispersed Phase
57%
Momentum Equation
42%
Continuous Phase
28%
Model Equation
28%
Multiphase Model
28%
PHOENICS
28%
Continuity Equation
28%
Physical Properties
14%
Particle Size
14%
Turbulent Flow
14%
Field Equations
14%
Concentration Gradient
14%
Multiphase Systems
14%
Algebraic Equation
14%
Commercial Code
14%
Volume Fraction
14%
Computational Effort
14%
Particle Density
14%
Single-phase Flow
14%
Single-phase Systems
14%
Terminal Velocity
14%
Generalized Stresses
14%
Gravity Settling
14%
Characteristic Timescales
14%
Additional Term
14%
Viscous Stress
14%
Computational Tasks
14%
Phase Simulation
14%
Accurate Approximation
14%
Rotating Flows
14%
Relative Velocity
14%
Hydrodynamic Behavior
14%
Mixture Density
14%
Turbulent Stress
14%
Mixture Velocity
14%
Wide Distribution
14%
Numerical Flow Simulation
14%
Mixture Equation
14%
Phase Continuity
14%
INIS
mixtures
100%
multiphase flow
100%
equations
50%
velocity
28%
applications
21%
particles
21%
simulation
14%
comparative evaluations
14%
density
14%
approximations
14%
distribution
14%
suspensions
14%
values
7%
concentration
7%
physical properties
7%
particle size
7%
slip
7%
volume
7%
turbulent flow
7%
field equations
7%
hydrodynamics
7%
gravitation
7%
continuity equations
7%