Qualification Type: | PhD |
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Location: | Loughborough |
Funding for: | UK Students, EU Students, International Students |
Funding amount: | £19,237 |
Hours: | Full Time |
Placed On: | 1st May 2024 |
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Closes: | 16th May 2024 |
This study will investigate the pivotal role of wind turbine owners’ decisions and the policy alternatives aimed at increasing the integration of offshore wind energy into electricity grids.
In response to escalating concerns about climate change, local air pollution, the fluctuation in fossil fuel prices, energy security challenges, and the potential depletion of fossil fuel resources, governments worldwide have taken proactive measures at various administrative levels. These actions entail the implementation of policies aimed at fortifying the presence of renewable energy sources within their electricity sectors. These supportive policies exhibit diverse structures, with advocates asserting their indispensability in nurturing the development of emerging renewable industries, propelling technological advancements, achieving economies of scale, and fostering competition with well-established sectors.
Among the earliest renewable energy technologies to receive substantial promotion, wind energy stands out due to its maturity and cost-effectiveness relative to other renewable options. As a result, it has emerged as the favoured choice for numerous nations as they embark on their initial endeavours to address climate-related imperatives.
A potential game-changer for offshore wind lies in the commercial development of floating technologies, enabling the deployment of large wind turbines in waters deeper than 50-60 meters, where building fixed foundations remains technically impractical and economically unviable. Many decarbonisation scenarios envision offshore wind as a key player in reducing greenhouse gas emissions, especially in light of sustained cost reductions and technological advancements that facilitate the utilisation of wind resources in deeper waters. Beyond electricity generation, offshore wind holds substantial potential for hydrogen production and energy storage through battery systems.
The project will explore the following areas:
To achieve this objective, the project will adopt both a theoretical and empirical methods of analysis, with a particular focus on the UK offshore wind farm development.
Training & Skills
The student will develop a wide range of numerical modelling and programming skills that will provide excellent career opportunities in both academia and industry.
You will benefit from a taught programme, giving you a broad understanding of the breadth and depth of current and emerging offshore wind sector needs. This begins with an intensive six-month programme for the new student, drawing on the expertise and facilities of our academic partners. It is supplemented by Continuing Professional Development (CPD), which is embedded throughout your 4-year research scholarship.
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