A New Technique to Study Temperature Effects on Ice Adhesion Strength for Wind Turbine Materials

Gouni, Rajkiran

January 2011

No description available.

Materials Science

Ice

Adhesion Strength

Temperature

Wind Turbine

LONGITUDINAL CONTROL OF A NOVEL AIRBORNE WIND ENERGY SYSTEM

Tierno, Nicholas C.

15 June 2011

No description available.

Energy

Engineering

QFT

MIMO

Energy

Wind Turbine

Control Engineering

An Integrated Framework of Performance Assessment and Drivetrain Prognostics for Wind Turbines

Zhao, Wenyu

20 October 2014

No description available.

Mechanics

Wind Turbine

Prognostics

Performance Assessment

Drivetrain Prognostics

SCADA

CMS

WindLCOEA MATLAB TOOL FOR OPTIMIZING THE LEVELIZED COST OF ENERGY FOR WIND TURBINE DESIGNS

Pettit, Erica S.

12 June 2014

No description available.

Systems Design

Wind

Levelized Cost of Energy

MATLAB

Wind Turbine

A Probabilistic Approach for Prognostics of Complex Rotary Machinery Systems

Zhao, Wenyu

09 June 2015

No description available.

Mechanics

Prognostics

PHM

Bayesian Network

Wind Turbine

Jet Engine

Prediction

A Study of the Aerodynamic Behavior of a NREL Phase VI Wind Turbine Using the CFD Methodology

Chen, Yen-Pin

14 September 2011

No description available.

Mechanical Engineering

mechanical engineering

aerodynamic behavior

wind turbine

CHARACTERIZATION OF CUP ANEMOMETER DYNAMICS AND CALCULATION OF THE ACOUSTIC NOISE PRODUCED BY A NREL PHASE VI WIND TURBINE BLADE

Chen, Yng-Ru

31 May 2016

No description available.

Aerospace Engineering

Physics

cup anemometer

acoustic noise

wind turbine blade

Modeling of Bi-directional Converter for Wind Power Generation

Abu-hamdeh, Muthanna S.

January 2009

No description available.

Electrical Engineering

wind power

wind turbine

bidirectional converter

A High Fidelity Finite Element and Contact Analysis Investigation of Stresses and Motions of a Wind Turbine Gearbox

Thaler, Aaron Paul

06 September 2011

No description available.

Engineering

Mechanical Engineering

Wind Turbine

Gearbox

Finite Element

Contact Analysis

A NUMERICAL STUDY ON THE FLOW DIVERGENCE AROUND A HIGH SOLIDITY VERTICAL AXIS WIND TURBINE

Misner, Greg

January 2019

This thesis reports on a numerical investigation into the three-dimensional flow divergence around a high solidity vertical axis wind turbine. Three-dimensional unsteady Reynolds averaged Navier-Stokes simulations of an H-type vertical axis wind turbine were used to examine the impact of turbine aspect ratio and tip speed ratio on the flow divergence. The turbine height was changed to alter the turbine aspect ratio, while keeping the diameter constant, to ensure that the solidity and tip speed ratio values were comparable between the different aspect ratios tested. The power output of the turbine consistently increased with aspect ratio and the optimal tip speed ratio for peak performance was negligibly affected. The flow divergence results showed that larger aspect ratio turbines had significantly more flow divergence with a 1 m/s entrance velocity difference between the smallest and largest cases. These two results where contradictory as a larger aspect ratio turbine was more efficient even though it had a smaller fraction of the upstream flow entering the upwind pass. The reason for this result was that impact of the tip effects, which caused a power reduction near the end of the blades. The distance from the blade tips that experienced a power reduction was constant for turbines of aspect ratio one and greater, resulting in a smaller turbine having a greater fraction of its height effected by the tips. This caused the overall power output for a smaller aspect ratio turbine to be lower even though its centre performance was higher, due to an increased entrance velocity. The change in flow divergence with tip speed ratio was also examined to better understand the driving force behind the divergence. It was found that the turbine power output was not the direct cause of flow divergence. The blade forces, specifically the force generated in the upstream direction had a strong linear correlation with the upstream flow divergence. / Thesis / Master of Applied Science (MASc)

flow divergence

Computational Fluid Dynamics

Vertical Axis Wind Turbine