Concept

Wake turbulence

Related lectures (32)

Normal Ordered Product And Wick Theorem

Covers normal ordered product, Wick's theorem, creation and destruction fields, and efficient computation methodology.

Decay Rate & Dyson Series

Explores cross section, decay rate, and Dyson series in turbulence, emphasizing proper split and Lorentz invariance.

Turbulence: Fundamentals and Modeling

Covers the fundamentals of turbulence, its modeling approaches, and practical applications in science and engineering.

Turbulence: Near-Wall Treatment & Turbulence Models Guidelines

Explores near-wall treatment in turbulent flow simulations and provides guidelines for choosing turbulence models and mesh parameters.

Kolmogorov Turbulence Theory

Explores Kolmogorov's turbulence theory, covering Navier-Stokes equations, conservation laws, energy budgets, and experimental laws of turbulence.

Fluid Dynamics: Instabilities and Turbulence

Covers fluid dynamics instabilities, turbulence, stability of airplanes, and key concepts.

Turbulence: Structures and Dissipation

Covers the formation and dissipation of structures in turbulence, focusing on energy flux and estimation methods.

Incompressible Fluid Mechanics

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

Lattice Boltzmann: Turbulence Onset

Explores lattice Boltzmann's role in studying turbulence onset and its advantages in hydrodynamics.

Intermittency Corrections to K41

Explores intermittency corrections to the K41 theory in turbulence and the breakdown of self-similarity.

Turbulence: Statistical Stationarity and Energy Dissipation

Explores statistical stationarity, energy dissipation, and turbulence in fluid dynamics.

Vorticity and Circulation

Delves into vorticity, circulation, and vortex characteristics, impacting fluid behavior and system performance.

Kalman-Hauad-Morning Relation

Delves into deriving the Kalman-Hauad-Morning relation in stationary turbulence, emphasizing homogeneity and isotropy assumptions, and culminates in the common Howard-Mohnen relation.

Understanding Turbulence: Course Overview

Introduces the turbulence course, emphasizing theory, project work, and relevance for fluids specialization students.

Poiseuille & Resistance

Explores Poiseuille's law, pressure-velocity relation, wall shear stress, resistances, Bernoulli's equation, and turbulence in fluid dynamics.

Turbulence and Symmetry

Introduces turbulence and symmetry in fluid dynamics, exploring the effects of Reynolds number on flow patterns.

Energy Flux in Turbulence

Covers the energy flux in turbulence, including Kolmogorov's 4/5 law and the energy cascade.

Schlieren / BOS Visualisation

Delves into the innovative Background-Oriented Schlieren technique for visualizing shock waves and compressible flow phenomena using environmental patterns.

Turbulence Cascade: Kolmogorov Theory

Explores Kolmogorov's theory on turbulence cascade and its physical interpretations, including the Karman-Howarth-Monin relation.

Non-Linear Effects in Plasmas: Resonant Three Wave Interaction

Explores non-linear effects in plasmas, including resonant three wave interaction and Landau damping.