MEngSc in Electrical Power Networks
Dublin, Ireland
DURATION
1 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Sep 2025
TUITION FEES
EUR 29,100 / per year *
STUDY FORMAT
On-Campus
* non-EU fee per year - €29,100; EU fee per year - € 9,530
Introduction
The modern power system is in the midst of a radical change as it transitions to the use of increased variable renewable generation, deals growing demands for electrification of transport and heating and the integration of new smart grid control approaches. This 1 year MEngSc in Electrical Power Networks is specifically designed to give you a fundamental understanding of the design and operation of electrical power networks in the context of the transition to a more sustainable energy system. The programme is taught by world renowned academics with a strong track record in power systems and energy research. Teaching is underpinned and supported by the research agenda of the UCD Energy Institute which is working towards a net zero carbon future. The programme will provide you with advanced training in various aspects of electrical engineering and equip you with the skills required to pursue a career in the rapidly evolving power system and smart grid sectors. If you are a mathematically strong engineering student who is interested in being part of the transition to a more sustainable future and you are seeking a professional career in the power system and smart grid sectors, then this programme is ideal for you.
Delivered by a highly research-active School composed of many internationally high-profile academics, including five IEEE Fellows. This programme is also taught by academics from the world-leading Energy Institute for the integration of renewables into power systems and energy systems.
Vision and Values Statement
The MEngSc Electrical Power Networks is a one-year programme that educates professional engineers to excel at an advanced technical level, or as a professional engineering manager, in the expanding sustainable power system and smart grid sectors anywhere in the world. The strong emphasis within the programme on the mathematical and analytical underpinnings of the discipline also provide an excellent foundation for entry into advanced research programmes. The programme can be taken by graduates with an honours bachelor's (first cycle) degree in electrical engineering or a closely related discipline. Graduates will receive an advanced engineering education in subject areas related to power system analysis & design, power electronics applications & design, sustainable power systems, smart grid communication architectures and electricity market operations.
Individual modules are taught by a strong cohort of experienced and internationally recognised academic staff (forming part of the world-leading Energy Institute for the integration of renewables into power systems), with expertise in all the core areas of Electrical Engineering. Teaching methods and assessment procedures vary across the programme to suit the wide range of subjects offered and include individual and group analytical studies and practical work. There is a strong laboratory component, allowing students to experience the practical aspects of electrical energy engineering, while assignments provide complex design and problem-solving challenges. In the final trimester, a substantial research project draws together many of the separate strands of learning, with an emphasis on independent learning, research methods, technical design & analysis, and communication skills.
Gallery
Ideal Students
Who should apply?
Full-Time option suitable for:
- Domestic(EEA) applicants: Yes
- International (Non-EEA) applicants currently residing outside of the EEA Region. Yes
Admissions
Scholarships and Funding
Please note that UCD offers a number of graduate scholarships for full-time, self-funding international students, holding an offer of a place on a UCD graduate degree programme. For further information please contact our Admissions team!
Curriculum
Modules
Stage 1 - Core
- Control Theory
- Power System Operation
- Power System Design
- Applications of Power Electronics
- Power System Dynamics and Control
- Optimisation Techniques for Engineers
- MEngSc Electrical Project
Stage 1 - Option
- Numerical Algorithms
- Data Science in Python (MD)
- Energy Economics and Policy
- Modelling and Simulation
- Power Electronics and Drives
- Renewable Energy Systems
- Power Electronics Technology
- Professional Engineering (Management)
- Technical Communication
Program Outcome
- Advanced knowledge & understanding of the mathematical and analytical techniques and technologies underpinning the electrical energy engineering field, including state oft the art research techniques, with a focus on sustainable power systems, smart grid applications and power electronics technology
- The ability to identify, formulate, model, critically analyse, optimise and solve complex electrical engineering problems, placed in the wide context of smart grid applications, power electronic systems and electricity market economics
- The ability to perform the detailed design of electrical networks, power system components and power electronic systems using advanced and research level analytical techniques, and a critical interpretation of relevant data
- The ability to design, conduct and critically evaluate experiments, and apply and assess a range of standard and specialised research tools, advanced analytical techniques and methods of enquiry using industry standard software tools, specialist research tools and laboratory facilities
- A strong understanding of the need for high ethical standards in the practice of electrical energy engineering, including the responsibilities of the engineering profession towards people and the environment
- The ability to work highly effectively as an individual, in teams and in multidisciplinary settings, together with the capacity to undertake lifelong learning, and so offering a strong foundation for entry into advanced research programmes
- The ability to communicate effectively on complex engineering activities, fully recognising multidisciplinary aspects, with the engineering community, individual research disciplines and with society at large
Program Tuition Fee
Career Opportunities
The demand for graduates in the electrical power and energy sectors both in Ireland and internationally has never been stronger. The programme equips graduates with the skills and knowledge for employment opportunities in areas such as;
- Renewable energy development
- Power system operation
- Energy services
- Smart grid technology development
- Electricity trading
Facilities
Student Testimonials
Program Admission Requirements
Show your commitment and readiness for Grad school by taking the GRE - the most broadly accepted exam for graduate programs internationally.