NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel


Lecture 1 - Brief Introduction to Multiphase Flow


Lecture 2 - Brief Introduction to Multiphase Flow (Continued...)


Lecture 3 - Two Phase Flow through Micro Channels


Lecture 4 - Two Phase Flow through Micro Channels (Continued...)


Lecture 5 - Criteria for Confinement for in Case of Two Phase Flow


Lecture 6 - Pertinent Dimensionless Numbers in Two Phase


Lecture 7 - Flow Pattern Maps for Milli and Micro Systems


Lecture 8 - Pattern Transition from Energy Minimisation Principle


Lecture 9 - Experimental Identification of Flow Regimes


Lecture 10 - Experimental Identification of Flow Regimes (Continued...)


Lecture 11 - Flow Regimes and Void Fraction Estimation


Lecture 12 - Influence of Operating Parameter on Flow Patterns


Lecture 13 - Influence of Operating Parameter on Flow Patterns (Continued...)


Lecture 14 - Influence of Operating Parameter on Flow Patterns (Continued...)


Lecture 15 - Influence of Operating Parameter on Flow Patterns (Continued...)


Lecture 16 - Void Fraction Characteristic Mini and Micro Channel


Lecture 17 - Void Fraction and Pressure Drop in Reduced Dimensions - Experimental results


Lecture 18 - Void Fraction and Pressure Drop in Reduced Dimensions - Experimental results (Continued...)


Lecture 19 - Theoretical Analysis of Two Phase Flow in Reduced Dimensions


Lecture 20 - Theoretical Analysis of Two Phase Flow in Reduced Dimensions (Continued...)


Lecture 21 - Flow Pattern based Analysis in Micro Systems - Drift Flux Model


Lecture 22 - Flow Pattern based Modelling - Slug Flow Model


Lecture 23 - Flow Boiling in Microchannels


Lecture 24 - Tutorial - I


Lecture 25 - Tutorial - II