Explores flow regimes, diffusion mixing, and energetic efficiency in microchannels, emphasizing the need for fast mixing with minimal energy.
Explores internal forced convection, covering correlations, laminar and turbulent flow, and practical exercises using Jupyter Notebooks.
Covers the fundamentals of free convection and correlations for heat transfer between a solid and a fluid in motion at different temperatures.
Explores heat transfer modes, emphasizing convection, including forced and natural convection, boundary layers, and heat transfer coefficients.
Explores internal forced convection, covering convection coefficients, velocity profiles, and energy balances in pipes.
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
Explores forced external convection correlations and the procedure for solving convection problems, including the comparison of velocity and thermal boundary layers.
Covers laminar film condensation on a vertical plate and the key factors influencing the condensation process.
Covers the fundamentals of heat transfer, focusing on radiation, conduction, and convection, including boundary layers and Nusselt number.
Explores the microscopic description of diffusion and convection transport, emphasizing similarities between chemical diffusion and heat conduction.
