PhD Studentship: Improving Energy Conversion Efficiency of Wind Turbines Using Advanced Modelling an
Applications are invited for a three year Postgraduate studentship, supported by the School of Engineering and Applied Science, to be undertaken within the Power Electronics, Machines and Power System Research Group at Aston University. The successful applicant will join an established experimental group working on control of power electronic converters and electric drives for renewable energy and electric systems in transportation.
The position is available to start in October 2018
This studentship includes a fee bursary to cover the home/EU fees rate plus a maintenance allowance of £14,777 in 2018/19.
Applicants from outside the EU may apply for this studentship but will need to pay the difference between the ‘Home/EU’ and the ‘Overseas’ tuition fees, currently this is £12,290 in 2018/19.
As part of the application you will be required to confirm that you have applied for, or, secured this additional funding.
Background of the Project
Renewable energy will play a critical role in the establishment of an environmentally sustainable low carbon economy. It has been widely recognised as a growth area as a core component for research and technological development. However, the uptake of renewable power generation is hampered by the high costs involved. There is a pressing need to continually reduce costs and improving system performance, energy efficiency, maintainability and fault-tolerance.
Currently, wind energy is firmly in the spotlight because it is the only feasible source of renewable energy to be utilized economically in large quantities. Improving the efficiency of the wind turbine energy conversion system has become a major requirement in recent years. With the great recent advances in digital signal processing, much recent attempts have been carried out for real-time optimization techniques such as search controllers and model-based controllers. However, the complexity of optimization techniques used has not been well considered in these studies. Furthermore, only few control strategies suitable for real time implementation have been investigated.
The main focus of this work is to compare several optimization algorithms including both deterministic and stochastic approaches which are suitable to solve the problem of energy optimization for wind energy systems. Furthermore, advanced control strategies to produce the optimal control law at each operating conditions, such as predictive control, will be investigated based on the use of loss models of the electrical generator and the power electronic converters. Proposed schemes will be experimentally verified using a small scale laboratory prototype test rig.
The successful applicant should have a first class or upper second class honours degree or equivalent qualification in Electrical and Electronic Engineering. Preferred skill requirements include knowledge/experience of control systems, power electronics, electric drives and machines systems. Experience with real-time implementation of control algorithms for electric drives and power electronics systems is highly desirable.
We would particularly like to encourage application from women seeking to progress their academic careers. Aston University is committed to the principles of the Athena SWAN Charter, recently recognised by a prestigious Silver Award to EAS, and we pride ourselves on our vibrant, friendly and supportive environment and family atmosphere.
For informal enquiries about this project and other opportunities within the Power Electronics, Machines and Power System Research Group, contact Dr Shady Gadoue by email, email@example.com
If you require further information about the application process please contact the Postgraduate Admissions team at firstname.lastname@example.org
The online application form, reference forms and details of entry requirements, including English language are available here.
Applications must also be accompanied by a research proposal giving an overview of the main themes of the research, and explaining how your knowledge and experience will benefit the project.
Details of how to write your project proposal are also included in the How to Apply section.
Closing Date: 15 June 2018
Further particulars and application forms are available in alternative formats on request i.e. large print, Braille, tape or CD Rom.
If you have any questions, please do not hesitate to contact HR via email@example.com