Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/3743
Title: Numerical and experimental investigations of the impacts of the integration of wind energy into distribution network
Authors: Behara, Ramesh Kumar 
Issue Date: 1-Dec-2021
Abstract: 
The growing needs for electric power around the world has resulted in fossil fuel reserves to be
consumed at a much faster rate. The use of these fossil fuels such as coal, petroleum and natural
gas have led to huge consequences on the environment, prompting the need for sustainable
energy that meets the ever increasing demands for electrical power. To achieve this, there has
been a huge attempt into the utilisation of renewable energy sources for power generation. In
this context, wind energy has been identified as a promising, and environmentally friendly
renewable energy option. Wind turbine technologies have undergone tremendous
improvements in recent years for the generation of electrical power. Wind turbines based on
doubly fed induction generators have attracted particular attention because of their advantages
such as variable speed, constant frequency operation, reduced flicker, and independent control
capabilities for maximum power point tracking, active and reactive powers. For modern power
systems, wind farms are now preferably connected directly to the distribution systems because
of cost benefits associated with installing wind power in the lower voltage networks.
The integration of wind power into the distribution network creates potential technical
challenges that need to be investigated and have mitigation measures outlined. Detailed in this
study are both numerical and experimental models to investigate these potential challenges.
The focus of this research is the analytical and experimental investigations in the integration
of electrical power from wind energy into the distribution grid. Firstly, the study undertaken in
this project was to carry out an analytical investigation into the integration of wind energy in
the distribution network. Firstly, the numerical simulation was implemented in the
MATLAB/Simulink software. Secondly, the experimental work, was conducted at the High
Voltage Direct Centre at the University of KwaZulu-Natal.
The goal of this project was to simulate and conduct experiments to evaluate the level of
penetration of wind energy, predict the impact on the network, and propose how these impacts
can be mitigated. From the models analysis, the effects of these challenges intensify with the
increased integration of wind energy into the distribution network.
The control strategies concept of the doubly fed induction generator connected wind turbine
was addressed to ascertain the required control over the level of wind power penetration in the
distribution network. Based on the investigation outcomes we establish that the impact on the
voltage and power from the wind power integration in the power distribution system has a goal
to maintain quality and balance between supply and demand.
Description: 
A thesis submitted in fulfillment of the requirements for the Master of Engineering Degree in the Department of Electrical Power Engineering, Faculty of Engineering and the Built Environment, Durban University of Technology, 2021.
URI: https://hdl.handle.net/10321/3743
DOI: https://doi.org/10.51415/10321/3743
Appears in Collections:Theses and dissertations (Engineering and Built Environment)

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