Transport Phenomena: Introduction

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Page 2 of 4

Covers the principles of mass transfer, including diffusion and Fick's equations, and their applications in various processes.

Solidification Models: Equilibrium & Non-equilibrium

Explores equilibrium and non-equilibrium solidification models, diffusion simulation in brazing, multicomponent diffusion theory, kinetic modeling, and precipitation reactions.

Thermodynamic Functions and Equilibria: Mathematical Tools

Discusses thermodynamic functions, their mathematical tools, and key relationships between state variables in thermodynamics.

Thermodynamics: Fundamentals and Applications

Explores thermodynamic principles, practical applications, and transport phenomena in various systems.

Heat Equation: Diffusion and Temperature Distribution

Explores heat diffusion, temperature distribution, and thermal equilibrium in complex systems using the heat equation and Jupyter Notebook simulations.

Heat Diffusion with Heat Sources

Explores heat diffusion in 1D steady-state conduction with heat sources and discusses thermal resistance and Kirchhoff's laws.

Heat Conduction: Equations and Methods

Covers the equations and methods used to describe heat transfers in a similar way to the analysis of diffusion.

Thermal Diffusion: Conservation and Fourier Law

Explains conservation of energy and Fourier's law in thermal diffusion.

Thermal Resistances & Bi Number

Covers thermal resistances, Bi number, and thermal circuits, including conductive heat transfer and heat diffusion equations.

Irreversible Processes: Introduction

Introduces irreversible processes and the phenomenology of transport phenomena.