COURSE AIMS This MSc programme meets the industrial demand for the training and education of both existing and future engineers in the advanced concepts of sustainable electrical power and energy generation. This programme aims to produce graduates of the highest calibre with the right skills and knowledge who will be capable of leading in teams involved in the operation, control, design, regulation and management of the power systems and networks of the future.
This programme also aims to provide graduates with the ability to critically evaluate methodologies, analytical procedures and research methods in:
Power system engineering – using state-of-the-art computational tools and methods; Design of sustainable electrical power systems and networks; Regulatory frameworks for, and operation of, power systems and electricity markets. Who should Study this Course? This newly designed M.Sc. programme is appropriate for those seeking an in-depth knowledge of sustainable electrictrical power including:
Graduates in power or electrical engineering, physical sciences, or related disciplines who aspire to work in the electrical power industry; Industrially experienced graduate engineers and managers who recognise the importance of developing new analytical and critical skills, and state-of-the-art methodologies associated with the development sustainable electrical power systems.
Sustainable Power Generation
Generation costing of solar, geo-thermal, bio-mass, wind, hydro, tidal, and wave. Storage technologies and energy conversion: practical understanding and limitations. Embedded renewable generation: technical challenges, opportunities and connection in electrical transmission and distribution grids.
Energy Economics and Power Markets
Principles, objectives, regulation, computational methods, economic procedures, emissions trading, and operation of electricity markets. Restructuring and deregulation in generation, transmission, and distribution. Concepts of transmission congestion and demand side management.
Power System Analysis and Security
Capabilities and limitations of modern power systems design. Accurate use of power systems modelling and analysis of secure operation. Computational techniques for power systems modelling, optimal power flow, mathematical programming, heuristic methods, artificially intelligent methods.
Power System Operation and Management
Business drivers and technical requirements for operational management. In-depth knowledge of operational management software. Energy balance and intermittency in sustainable electrical power system operation and management.
Power Electronics and FACTS
Practical understanding of how to design advanced power electronic circuits. Modern power electronic integration techniques and state-of-the-art Flexible AC Transmission Systems. Capabilities and limitations of different power electronic circuits. Integration of power electronic circuits into Flexible AC Transmission Systems.
Power System Stability and Control
How to ensure effective power system stability and control power system operation using computational methods. Power system stability problems, static and dynamic, relaying and protection, stability control and protection design, excitation and power system stabilisers.
Formal methods and skills to function effectively at high levels of project management. Development of skills to achieve practical business objectives.
Sustainable Electrical Power Workshop You will gain experience and expertise with industry relevant tools and techniques through hands-on workshop environments. These practical sessions involve individual and group work. Typical assignments include:
Sustainable generation scheduling. Integration of renewable energy sources. Computer simulation of active power filters. Phase-controlled rectifiers. Power network security. Sustainable electrical power system stability control. Electricity market auctions. Sustainable electrical power system investment and planning.
Project This provides a stimulating and challenging opportunity to apply your knowledge and develop deep understanding in a specialised aspect of your choice. Projects can be university or industry and company sponsored students have the opportunity to develop their company’s future enterprise. Industrial projects often lead to the recruitment of the student by the collaborating company.
Applicants to the MSc programme should possess or hope to obtain a good UK first or second class Honours degree or equivalent internationally recognised qualification usually in Power Systems; Electrical or Electronic Engineering; Physics; Mathematics; or a related subject. Other qualifications and relevant experience will be assessed on an individual basis. English Language RequirementsIELTS: 6 (min 5.5 in all areas) TOEFL Paper test: 550 (TWE 4) TOEFL Internet test: 79 (R18, L17, S20, W17) Pearson: 51 (51 in all subscores)
Recipient: Brunel University London
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