Explores the microscopic description of diffusion and convection transport, emphasizing similarities between chemical diffusion and heat conduction.
Explores forced external convection correlations and the procedure for solving convection problems, including the comparison of velocity and thermal boundary layers.
Covers the fundamentals of heat transfer, focusing on radiation, conduction, and convection, including boundary layers and Nusselt number.
Covers the fundamentals of heat transfer in fluids, focusing on conduction, convection, and thermal equilibrium.
Explores the fundamentals of heat transfer, including radiation, convection, and conduction, emphasizing boundary layers and Nusselt numbers.
Explores internal forced convection, covering correlations, laminar and turbulent flow, and practical exercises using Jupyter Notebooks.
Explores heat transfer modes, emphasizing convection, including forced and natural convection, boundary layers, and heat transfer coefficients.
Covers the principles of mass transfer, including diffusion and Fick's equations, and their applications in various processes.
Explores heat conduction in solids, covering energy carriers, transient conduction, and effective conductivity in heterogeneous media.
Explores diffusion from a macroscopic perspective, emphasizing the derivation of the diffusion equation through mass conservation and fixed flux law.
