Concept

Boundary layer

Related lectures (31)

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

Boundary Layer: Blasius Solution

Explores the Blasius solution for boundary layer analysis and drag force calculations.

Laminar and Turbulent Flow

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

Introduction to Free Convection: Governing Equations

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

Heat Convection: Boundary Layers and Flow Regimes

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

Numerical Flow Simulation: Boundary Conditions

Covers the numerical simulation workflow for fluid dynamics, focusing on boundary conditions and their importance for solution convergence.

Prandtl Equations: Boundary Layer Analysis

Explains Prandtl equations, dominant balance, and boundary layer analysis in fluid dynamics.

Heat Transfer Fundamentals

Explores the fundamentals of heat transfer, including radiation, convection, and conduction, emphasizing boundary layers and Nusselt numbers.

Turbulence Modeling

Explores turbulence characteristics, modeling challenges, and various numerical simulation methods.

Internal Forced Convection: Hydrodynamic Aspects

Covers the hydrodynamic and thermal aspects of internal forced convection.

Boundary Layers: Recap and Effects on Drag and Lift

Covers the importance of boundary layers, viscosity effects on drag and lift.

CVD: Theoretical Concepts and Boundary Layers

Explores theoretical concepts in CVD, focusing on boundary layers and the Reynolds number.

Rayleigh Taylor Instability: Analysis and Equations

Explores Rayleigh Taylor instability, incompressible equations, and boundary conditions.

Boundary Layer Concepts

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

Pressure gradient effect

Explores the influence of pressure gradient on flow separation and boundary layer solutions in aerodynamics.

Velocity Boundary Layer Equations

Focuses on velocity boundary layer equations in laminar flow and covers mass and momentum conservation, Navier-Stokes equations, and the Reynolds number.

Internal Flows and Boundary Layers

Explores internal flows, boundary layers, heat transfer coefficients, and Nusselt number correlations in thermal systems.

Heat Transfer Fundamentals

Covers the fundamentals of heat transfer, focusing on radiation, conduction, and convection, including boundary layers and Nusselt number.

Heat Transfer Modes: Convection

Explores heat transfer modes, emphasizing convection, including forced and natural convection, boundary layers, and heat transfer coefficients.

Forced Convection Correlations

Explores forced external convection correlations and the procedure for solving convection problems, including the comparison of velocity and thermal boundary layers.