Introduction to Hydrodynamics

Related lectures (31)

Page 1 of 4

Covers fundamental hydrodynamics concepts, including two-phase flows, turbulence, and practical CFD examples.

Covers dimensional analysis, pipe flow, boundary layers, and d'Alembert's paradox, emphasizing the importance of live participation in Zoom sessions.

Explores the instability of various flow types and lift-up mechanisms in boundary layers.

Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.

Covers the hydrodynamic and thermal aspects of internal forced convection.

Covers laminar and turbulent flow, pressure losses, Reynolds number, Poiseuille flow, and friction in piping networks.

Explores free convection, laminar flow boundary layer equations, and heat transfer principles.

Explores boundary layer concepts, viscosity impact, drag and lift forces, and dimensional pipe flow analysis.

Covers conservation laws in fluid dynamics, including the Venturi effect and Bernoulli equation.

Explores heat convection, boundary layers, and flow regimes, emphasizing the importance of forced convection in energy transport.