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Turbulence: Numerical Flow Simulation

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

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Inviscid Flows: Understanding Fluid Dynamics

Explores inviscid flows, Reynolds number importance, linear deformations, and volume change in fluid dynamics.

Deformations and Circulation

Covers deformations, rotation, and circulation in closed curves, as well as vorticity generation in fluid flow.

Potential Flow: Forces on Solid Objects

Discusses forces on solid objects in potential flow, including lift and drag calculations and the analysis of flow around 2D bodies.

Basic Potential Flows: Sources, Sinks, and Vortices

Covers the concept of basic potential flows, including sources, sinks, and vortices.

2D Potential Flows

Explores 2D potential flows in fluid dynamics, focusing on stream function and velocity potential relationships and visualization techniques.

Inviscid Flow Approximations

Discusses approximations in incompressible, unsteady, and inviscid flow, lift, drag, viscosity, and fluid element deformation.

Dynamics of Steady Euler Flows: New Results

Explores the dynamics of steady Euler flows on Riemannian manifolds, covering ideal fluids, Euler equations, Eulerisable flows, and obstructions to exhibiting plugs.

Incompressible Fluid Mechanics

Covers topics such as differential analysis, potential flow, 2D flows, superpositions, lift, and drag.

Incompressible Fluid Mechanics: Lift and Circulation

Explores lift generation on airfoils and the concept of circulation in incompressible fluid mechanics.

Linear momentum & potential flow

Covers conservation of linear momentum, forces, equations of motion, and potential flow in fluid dynamics.

Velocity Potential and Momentum Balance

Discusses velocity potential, momentum balance, and solution strategies for incompressible flows.

Navier-Stokes Equations: Approximations and Solutions

Explores solving Navier-Stokes equations through approximations and special cases in fluid dynamics.

Boundary Layer Concepts

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

Boundary Layers: Recap and Effects on Drag and Lift

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

Vorticity Conservation and Diffusion

Covers vorticity conservation, diffusion, potential flow, and vortex dynamics.

Fluid Mechanics: 2D Potential Flow Analysis

Covers 2D potential flows, lift, drag, and motivation in Fluid Mechanics.

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Energy Conservation in Turbomachinery: Key Principles and Applications

Covers energy conservation principles in turbomachinery, focusing on the Bernoulli equation and its applications in real-world scenarios.