NOC:Multiphase Flows


Lecture 1 - Multiphase flow introduction


Lecture 2 - Fundamental definitions and terminology used in Multiphase - I


Lecture 3 - Fundamental definitions and terminology used in Multiphase - II


Lecture 4 - Flow Regime Map for Gas-Liquid System


Lecture 5 - Flow Regime Map for Fluid-Solid System


Lecture 6 - Pneumatic Conveying


Lecture 7 - Momentum Equation through Reynolds Transport Theorem


Lecture 8 - Lockhart Martinelli Correlation


Lecture 9 - Pressure Drop Calculation for Homogeneous Flow


Lecture 10 - Pressure Drop Calculation for Separated and Annular Flow Regime


Lecture 11 - Lagrangian Tracking of Single Particle Under Different Forces


Lecture 12 - Multiphase Interactions: Drag Force


Lecture 13 - Multiphase Interactions: Multi-particle Drag, Virtual Mass Force, Basset Force and Lift Force


Lecture 14 - Introduction to Multiphase Flow Modeling


Lecture 15 - Algebraic Slip Method and Euler-Euler Method


Lecture 16 - KTGF and Euler-Lagrangian Model


Lecture 17 - Measurement Techniques: Velocity Measurement


Lecture 18 - Measurement Techniques: Phase Fraction Measurement


Lecture 19 - Bubble Column


Lecture 20 - Packed Bed Reactor


Lecture 21 - Fluidized Bed Reactor


Lecture 22 - Summary