Wind plant power optimization through yaw control using a parametric model for wake effects-a CFD simulation study

Citations Over TimeTop 1% of 2014 papers

Abstract

This article presents a wind plant control strategy that optimizes the yaw settings of wind turbines for improved energy production of the whole wind plant by taking into account wake effects. The optimization controller is based on a novel internal parametric model for wake effects, called the FLOw Redirection and Induction in Steady-state (FLORIS) model. The FLORIS model predicts the steady-state wake locations and the effective flow velocities at each turbine, and the resulting turbine electrical energy production levels, as a function of the axial induction and the yaw angle of the different rotors. The FLORIS model has a limited number of parameters that are estimated based on turbine electrical power production data. In high-fidelity computational fluid dynamics simulations of a small wind plant, we demonstrate that the optimization control based on the FLORIS model increases the energy production of the wind plant, with a reduction of loads on the turbines as an additional effect.

Related Papers

• Evaluation of VSAERO in prediction of aerodynamic characteristics of helicopter hub fairings(1989)
• → Improvement on the Wake-Rotor Interaction Analysis Code by use of a Wake Decay Model.(1991)
• Experimental investigation on the momentumless wake(2007)
• → Types of momentum defect diffusion at the begining of the wake and wake establishment zone for the coupled wake and comparison with the isolated wake(1998)
• → In the Wake of the Wake of the Wake(2021)