Wind Turbine Collective and Individual Pitch Control Using Quantitative Feedback Theory

Wheeler, Laura

06 June 2017

No description available.

Engineering

Energy

pitch control

wind turbine

quantitative feedback theory

individual pitch control

FAST

Nocturnal Bird Call Recognition System for Wind Farm Applications

Bastas, Selin A.

10 July 2012

No description available.

Electrical Engineering

wind turbine

bird migration

bioacoustics

feature extraction

classification

KNN

DWT

ENN

HMM

MFCC

An Experimental Investigation on the Control of Tip Vortices from Wind Turbine Blade

Ning, Zhe

20 August 2013

No description available.

Aerospace Engineering

Fluid Dynamics

Mechanical Engineering

An Orthogonal Savonius-type Wind Turbine: Design and Experiments

Du, Yingkang

30 May 2016

No description available.

Electrical Engineering

Wind energy

Savonius-type wind turbine

Wind tunnel

MPPT

VAWT

A Systematic Framework for Unsupervised Feature Mining and Fault Detection for Wind Turbine Drivetrain Systems

Liu, Zongchang

12 September 2016

No description available.

Mechanics

Mechanical Engineering

vibration-based condition monitoring

Prognosis and Health Management

Experimental Testing and Computational Fluid Dynamics Simulation of Maple Seeds and Performance Analysis as a Wind Turbine

Holden, Jacob R.

January 2016

No description available.

Aerospace Materials

Maple seed

Computational Fluid Dynamics

Turbomachinery

Wind Turbine

Betz Limit

Boimimicry

China’s Wind Energy Development and Prediction

Wallin, Micah R.

03 September 2010

No description available.

Energy

5-year plan

Wind Energy

Wind Turbine

Green Energy

Alternative Energy

Sustainable Energy

on-grid

Aero-Structural Optimization of a 5 MW Wind Turbine Rotor

Vesel, Richard W., Jr.

19 June 2012

No description available.

Aerospace Engineering

wind turbine optimization

bend-twist coupling

airfoil optimization

genetic algorithms

aerostructural optimization

Aerodynamic performance of a wind-turbine rotor by means of OpenFOAM

Giannopoulos, Evangelos

January 2017

In order for wind-farm operators to deal with challenges regarding their fleet management, it is useful for them to estimate their units’ performance for different conditions. To perform such estimations, Computational Fluid Dynamics (CFD) may be used. This project focuses on the development of a CFD model for the aerodynamic analysis of wind turbine rotors, depending on their surface roughness. The work has been carried out in collaboration with the KTH Royal Institute of Technology and the Vattenfall AB R&D department. The open-source software OpenFOAM has been used to develop the desired model. A rigid body incompressible steady state, Reynolds-Averaged Navier-Stokes equations, k – ω SST CFD case has been set up. The NREL 5-MW rotor geometry has been used and the effect of four different surface roughness height values {1mm, 0.5mm, 100 μm, 30 μm} on its aerodynamic performance has been investigated for an incoming wind velocity of 10m/s. The referred roughness height values have been applied on the whole rotor surface. A 120° wedge type computational domain of unstructured mesh has been developed for the present simulations. The results indicate that a roughness-height increase leads to earlier flow separation over the blade suction side and increases the turbulent area of the boundary layer. That leads to a decrease for the extracted Torque and the Thrust force on the wind turbine rotor. Moreover, it is concluded that the rotor aerodynamic performance is more sensitive to low roughness heights rather than to high ones.

wind turbine

rotor

performance

CFD model

boundary layer

roughness

Engineering and Technology

Teknik och teknologier

Wind tunnel blockage corrections forwind turbine measurements

Inghels, Pieter

January 2013

Wind-tunnel measurements are an important step during the windturbinedesign process. The goal of wind-tunnel tests is to estimate theoperational performance of the wind turbine, for example by measuringthe power and thrust coecients. Depending on the sizes of both thewind turbine and the test section, the eect of blockage can be substantial.Correction schemes for the power and thrust coecients havebeen proposed in the literature, but for high blockage and highly loadedrotors these correction schemes become less accurate.A new method is proposed here to calculate the eect a cylindricalwind-tunnel test section has on the performance of the wind turbine.The wind turbine is modeled with a simplied vortex model. Usingvortices of constant circulation to model the wake vortices, the performancecharacteristics are estimated. The test section is modeled witha panel method, adapted for this specic situation. It uses irrotationalaxisymmetric source panels to enforce the solid-wall boundary condition.Combining both models in an iterative scheme allows for thesimulation of the eect of the presence of the test-section walls on windturbines performace.Based on the proposed wind-tunnel model, a more general empirical correlationscheme is proposed to estimate the performance characteristicsof a wind turbine operating under unconned conditions by correctingthe performance measured in the conned wind-tunnel conguration.The proposed correction scheme performs better than the existing correctionschemes, including cases with high blockage and highly loadedrotors.

Wind tunnel

wind turbine

numerical model

measurements

blockage

empirical correction scheme

Engineering and Technology

Teknik och teknologier