Risk Assessment For Installation of Drainage Pipes.pdf
Introduction to Multiphase Models
1. Introduction to Multiphase
ModelsFirst Part
Hamed Hoorijani
M.Sc. Student At the university of Tehran
Linked :linkedin.com/in/hamed-hoorijani/
: Hamed Hoorijani
Hoorijani@ut.ac.ir
Hoorijani.h@gmail.com
July 2019
7. TFM model(Two-Fluid Model)
• The Eulerian multiphase allows for the modeling of multiple separate,
yet interacting phases.
• The phases can be liquids, gases, or solids in nearly any combination.
• An Eulerian treatment is used for each phase, in contrast to the
Eulerian-Lagrangian treatment that is used for the discrete phase
model.
12. TFM Main Equations
Interphase Exchange Coefficients
particulate relaxation time
For the model of Schiller and Naumann
13. • The mixture model is a simplified multiphase model that can be used in different ways.
• It can be used to model multiphase flows where the phases move at different velocities,
but assume local equilibrium over short spatial length scales.
• It can be used to model homogeneous multiphase flows with very strong coupling and
phases moving at the same velocity and lastly, the mixture models are used to calculate
non-Newtonian viscosity.
• The mixture model can model phases (fluid or particulate) by solving the momentum,
continuity, and energy equations for the mixture, the volume fraction equations for the
secondary phases, and algebraic expressions for the relative velocities.
• Typical applications include sedimentation, cyclone separators, particle-laden flows with
low loading, and bubbly flows where the gas volume fraction remains low.
Mixture Model
14. The mixture model is a good substitute for the full Eulerian multiphase model in
several cases:
1. A full multiphase model may not be feasible when there is a wide distribution of
the particulate phase
2. when the interphase laws are unknown or their reliability can be questioned.
A simpler model like the mixture model can perform as well as a full multiphase
model while solving a smaller number of variables than the full multiphase model.
The mixture model allows you to select granular phases and calculates all properties
of the granular phases.
This is applicable for liquid-solid flows
Mixture Model
19. Mixture Main Equations
Granular Properties
Kinetic Viscosity
Collisional Viscosity
Since the concentration of particles is an important factor in the calculation of the
effective viscosity for the mixture, we may use the granular viscosity to get a value for the
viscosity of the suspension. The volume weighted averaged for the viscosity would now
contain shear viscosity arising from particle momentum exchange due to translation
and collision.
Gidaspow
Syamlal
21. VOF Model(Volume of Fraction)
• Appropriate for flow where Immiscible fluids have a clearly defined
interface.
• Shape of the interface is of interest
• Typical problems:
• Jet breakup
• Motion of large bubbles in a liquid
• Motion of liquid after a dam break (shown at right)
• Steady or transient tracking of any liquid-gas interface
• Inappropriate for:
• Flows involving small (compared to a control volume) bubbles
• Bubble columns