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Large Eddy Simulation (LES) in Marine Hydrodynamics and Offshore Wind Power

Language

English

Course format On-site
Date 2020-08-10 - 2020-12-18

Course content

LES with dynamic Smagorinsky model and flow separation, wave analysis of a fixed or floating vertical cylinder by nonlinear potential theory in long wave regime, Morison's equation, wind turbine and wake aerodynamics, blade-element/momentum theory, rotor loads and atmospheric boundary layer profiles.

Application procedure

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Learning outcomes

Introduction to Large Eddy Simulation, filtering techniques, dynamic Smagorinsky modelling. Morison's equation. Flow separation effects calculated by LES. Nonlinear long-wave analysis of moored and fixed cylinders. Fundamental and super harmonic forces and responses. Response characteristics of the HYWIND offshore wind test turbine (when available). Wind turbine aerodynamics. Blade-element/momentum theory. Wake aerodynamics. Distributed momentum sources in LES to represent rotor loads. The actuator line technique. Synthetic turbulence and atmospheric boundary layer profiles using distributed momentum sources. Stability of wakes.

Files/Documents

ISCED Categories

Physical and chemical oceanography
Offshore and renewable energy