Multiphase Flow Dynamics
( 24 Modules )

Module #1
Introduction to Multiphase Flow
Overview of multiphase flow, importance, and applications

Module #2
Fundamentals of Fluid Mechanics
Review of single-phase fluid mechanics, Eulerian and Lagrangian frameworks

Module #3
Phase Distribution and Interfacial Transport
Phase distribution, interfacial area, and interfacial transport phenomena

Module #4
Flow Regimes in Multiphase Flow
Classification of flow regimes, flow pattern maps, and regime transitions

Module #5
Gas-Liquid Flows
Characteristics of gas-liquid flows, bubble dynamics, and slug flow

Module #6
Liquid-Liquid Flows
Characteristics of liquid-liquid flows, droplet dynamics, and dispersion

Module #7
Solid-Liquid Flows
Characteristics of solid-liquid flows, particle dynamics, and sedimentation

Module #8
Gas-Solid Flows
Characteristics of gas-solid flows, particle dynamics, and pneumatic transport

Module #9
Multiphase Flow in Pipes
Flow behavior, pressure drop, and flow regime transitions in pipes

Module #10
Multiphase Flow in Channels
Flow behavior, flow regime transitions, and film flow in channels

Module #11
Multiphase Flow in Porous Media
Flow behavior, relative permeability, and capillary pressure in porous media

Module #12
Heat Transfer in Multiphase Flow
Heat transfer mechanisms, heat transfer coefficients, and Nusselt number

Module #13
Mass Transfer in Multiphase Flow
Mass transfer mechanisms, mass transfer coefficients, and Sherwood number

Module #14
Models for Multiphase Flow
Eulerian-Eulerian, Eulerian-Lagrangian, and Lagrangian-Lagrangian models

Module #15
Numerical Methods for Multiphase Flow
Finite volume, finite element, and lattice Boltzmann methods

Module #16
Experimental Techniques for Multiphase Flow
Measurement techniques, flow visualization, and optical diagnostics

Module #17
Applications of Multiphase Flow in Industries
Oil and gas, chemical processing, power generation, and biological systems

Module #18
Safety and Environmental Aspects of Multiphase Flow
Hazards, risk assessment, and environmental impact of multiphase flow systems

Module #19
Scaling and Dimensional Analysis in Multiphase Flow
Scaling laws, dimensionless numbers, and similarity principles

Module #20
Computational Fluid Dynamics (CFD) for Multiphase Flow
CFD modeling, turbulence models, and validation of multiphase flow simulations

Module #21
Machine Learning and Artificial Intelligence in Multiphase Flow
Machine learning algorithms, data-driven modeling, and AI applications in multiphase flow

Module #22
Uncertainty Quantification and Sensitivity Analysis
Uncertainty quantification, sensitivity analysis, and probabilistic modeling in multiphase flow

Module #23
Case Studies and Examples in Multiphase Flow
Real-world examples, case studies, and applications of multiphase flow principles

Module #24
Course Wrap-Up & Conclusion
Planning next steps in Multiphase Flow Dynamics career

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Multiphase Flow Dynamics ( 24 Modules )

Multiphase Flow Dynamics
( 24 Modules )