Master of Engineering in Energy Systems Engineering

General

Program Description

Graduate Taught (level 9 nfq, credits 120)

The ME in Energy Systems Engineering prepares graduates to meet the engineering, economic and environmental challenges facing the energy systems of developed and developing countries. Graduates of this programme gain a comprehensive understanding of the complex multi-disciplinary and often conflicting issues that arise in the search for effective solutions.

Graduates will also be capable of working anywhere in the world at an advanced technical level or as a professional engineering manager. Candidates who have already completed a 4-year professional engineering bachelor’s degree may be eligible for recognition of prior learning, enabling them to complete this programme over 12 months.

Curricular information is subject to change.

Who should apply?

Full-Time option suitable for:
  • Domestic (EEA) applicants: Yes
  • International (Non-EEA) applicants currently residing outside of the EEA Region. Yes

Course Description

The ME programme prepares engineers for work in designing and developing future energy systems and aims to deepen understanding of the interactions between these systems and the environment and energy policy, taking account of economic factors. The scope of the programme includes analysis of global energy systems, use of finite natural resources and the impact on climate. It focuses on renewable and other energy sources such as wind, wave, nuclear and solar power and on the conversion, storage and transmission by electrical and other means. The programme will also address the efficient use of energy in buildings, transport and industrial processes, together with the study of other topics such as carbon sequestration.

  • Participants will receive a broad education which is built on strong theoretical foundations but retains a strong focus on real-world applications.
  • This 2 year Masters includes a 6-8 professional work experience internship.
  • Graduates will gain a strong understanding of the complex multi-disciplinary and often conflicting issues that arise in the search for effective solutions to the energy challenges.
  • This master is professionally accredited and teaching is provided by academic experts drawn from all five UCD Schools of Engineering and from other disciplines.

Vision and Values Statement

This professionally accredited “Second Cycle” Master of Engineering programme aims to prepare its graduates for work in designing and developing future energy systems, taking account of climate impact / CO2 emissions, the security of energy supply and economic competitiveness concerns. The scope of the programme includes analysis of global energy systems, use of finite natural resources and the impact on climate. It focuses on the use of fossil fuels and on renewable and other energy sources such as wind, wave, nuclear and solar power and on the conversion, storage and transmission by electrical and other means. The programme also addresses the efficient use of energy in buildings, transport and industrial processes, together with the study of other topics such as carbon capture and sequestration.

Incoming students should have a strong understanding of fundamental principles in the discipline of their “First Cycle” degree, typically in Mechanical, Electrical / Electronic or Chemical engineering, or in a strong mathematical science discipline. Participation in this programme ensures that they broaden their education to develop a grasp of fundamental principles from across a range of other disciplines in order to equip them to tackle the complex multi-disciplinary and often conflicting issues that arise in the search for effective solutions to the energy challenges facing mankind.

The programme draws from the expertise of UCD academic staff from all of the Schools of Mechanical & Materials, Electrical & Electronic, Chemical & Bioprocess, Civil and Biosystems & Food Engineering), and also from the Schools of Physics, Earth Sciences, Economics and Business.

Teaching is by means of lectures, supervised laboratories, tutorials, assignments and self-directed learning. The full 2-year programme includes a 6-8 month industry-based internship and all students carry out an individual Research Project, supervised by a member of academic staff which is, in many cases, carried out in collaboration with industry.

Programme Outcomes

  • a) Advanced knowledge and understanding of the mathematics, sciences, engineering sciences and technologies underpinning Energy Systems engineering.
  • b) The ability to identify, formulate, analyse and solve complex engineering problems
  • c) The ability to perform the detailed design of a novel system, component or process using analysis and interpretation of relevant data.
  • d) The ability to design and conduct experiments and to apply a range of standard and specialised research (or equivalent) tools and techniques of enquiry.
  • e) An understanding of the need for high ethical standards in the practice of engineering, including the responsibilities of the engineering profession towards people and the environment.
  • f) The ability to work effectively as an individual, in teams and in multidisciplinary settings, together with the capacity to undertake lifelong learning.
  • g) The ability to communicate effectively on complex engineering activities with the engineering community and with society at large.

Career & Graduate Study Opportunity

Graduates of this ME Energy Systems programme will be equipped with the skillset and knowledge vital for crucial roles in research, design and development in companies in the energy sector. Graduates from this programme have obtained jobs in a wide variety of organisations in Ireland and further afield, the majority in the energy sector.

Prospective employers include: ESB International (Dublin), Commission for Energy Regulation (Dublin), Airport Authority, Intel Ireland Limited, Dalkia Ltd (Dublin), Accenture (Dublin), Dimplex Renewables (Irl), Enercon GmbH (Ireland and Germany), Zenith Technologies (Cork), ConocoPhillips (Cork), Imtech (UK), MCS Kenny (UK), Sellafield Ltd (UK), Schletter UK Ltd, Schwenk Zement (Germany), KBR (UK), Capula Ltd (UK), Eclareon (Spain), Dynapower LLC (USA), Sea Breeze Power Corp (Canada), KBR (Australia), and Independent Market Operator (Perth, Australia). Significant numbers of graduates have also decided to pursue further study to PhD level, at UCD and elsewhere.

What modules can I take?

Stage 1 - Option
  • Entrepreneurship in Action, BMGT30090
  • Air Pollution, BSEN30030
  • Chem Proc Sust & Ren Energy, CHEN40440
  • Process Control, CHEN40560
  • Environmental Engineering Fundamentals, CVEN20030
  • Energy Economics and Policy, ECON42360
  • Electrical and Electronic Circuits, EEEN20020
  • Electrical Energy Systems, EEEN20090
  • Power System Engineering, EEEN30070
  • Electrical Machines, EEEN30090
  • Control Theory, EEEN40010
  • Power System Operation, EEEN40080
  • Power System Design, EEEN40090
  • Power Electronics and Drives, EEEN40100
  • Renewable Energy Systems, EEEN40110
  • Applications of Power Electronics, EEEN40120
  • ME Electrical Energy Professional Work Experience (short), EEEN40180
  • ME Electrical Energy Professional Work Experience (long), EEEN40190
  • Entrepreneurship in Engineering, EEEN40300
  • Power Electronics Technology, EEEN40310
  • ME Elect Energy Project, EEEN40360
  • Power System Dynamics and Control, EEEN40550
  • Optimisation Techniques for Engineers, EEEN40580
  • Fossil fuels, carbon capture and storage, GEOL40310
  • Heat Transfer, MEEN20050
  • Measurement & Instrumentation, MEEN30040
  • Engineering Thermodynamics II, MEEN30100
  • Professional Engineering (Finance), MEEN30140
  • Engineering Thermodynamics III, MEEN40010
  • Mechanics of Fluids II, MEEN40020
  • Computational Continuum Mechanics I, MEEN40050
  • Energy Systems and Climate Change, MEEN40090
  • Advanced Polymer Engineering, MEEN40110
  • Computational Continuum Mechanics II, MEEN40150
  • Mechanics of Fluids III, MEEN40190
  • Energy Systems in Buildings II, MEEN40200
  • Energy in Transport, MEEN40210
  • Professional Engineering (Management), MEEN40430
  • ME Professional Work Experience, MEEN40530
  • ME Professional Work Experience, MEEN40540
  • ME (Energy) Research Project Summer, MEEN40550
  • Research Skills and Techniques, MEEN40560
  • ME (Energy) Research Project, MEEN40570
  • Technical Communication, MEEN40670
  • Technical Comms (Online), MEEN40820
  • Nuclear Physics, PHYC30090
Stage 2 - Core
  • Research Skills and Techniques, MEEN40560
  • ME (Energy) Research Project, MEEN40570
Stage 2 - Option
  • Entrepreneurship in Action, BMGT30090
  • Air Pollution, BSEN30030
  • Chem Proc Sust & Ren Energy, CHEN40440
  • Process Control, CHEN40560
  • Environmental Engineering Fundamentals, CVEN20030
  • Energy Economics and Policy, ECON42360
  • Electrical and Electronic Circuits, EEEN20020
  • Electrical Energy Systems, EEEN20090
  • Power System Engineering, EEEN30070
  • Electrical Machines, EEEN30090
  • Control Theory, EEEN40010
  • Power System Operation, EEEN40080
  • Power System Design, EEEN40090
  • Power Electronics and Drives, EEEN40100
  • Renewable Energy Systems, EEEN40110
  • Applications of Power Electronics, EEEN40120
  • Entrepreneurship in Engineering, EEEN40300
  • Power Electronics Technology, EEEN40310
  • ME Elect Energy Project, EEEN40360
  • Power System Dynamics and Control, EEEN40550
  • Optimisation Techniques for Engineers, EEEN40580
  • Fossil fuels, carbon capture and storage, GEOL40310
  • Heat Transfer, MEEN20050
  • Engineering Thermodynamics II, MEEN30100
  • Professional Engineering (Finance), MEEN30140
  • Engineering Thermodynamics III, MEEN40010
  • Mechanics of Fluids II, MEEN40020
  • Computational Continuum Mechanics I, MEEN40050
  • Energy Systems and Climate Change, MEEN40090
  • Computational Continuum Mechanics II, MEEN40150
  • Mechanics of Fluids III, MEEN40190
  • Energy Systems in Buildings II, MEEN40200
  • Energy in Transport, MEEN40210
  • Professional Engineering (Management), MEEN40430
  • ME (Energy) Research Project Summer, MEEN40550
  • Technical Communication, MEEN40670
  • Technical Comms (Online), MEEN40820
  • Nuclear Physics, PHYC30090

Fees, Funding and Scholarships

ME Energy Systems (T164) Full-Time
  • EU: fee per year - € 8085
  • non-EU: fee per year - € 25600

***Fees are subject to change.

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.

Student Internships

The Professional Work Experience (PWE) module is incorporated into the two-year Masters of Engineering Programme and is designed to integrate a student’s academic and career interests with practical work experience for a 6-8 month period.

The module provides students with the perfect opportunity to gain increased experience and understanding of their chosen field, assess where their strengths and weaknesses lie and maximise their knowledge of the available career possibilities. The practical skills acquired during this placement will give graduates a competitive advantage when applying for positions upon graduation.

Professional Accreditation

The UCD ME (Energy Systems) degree programme is fully accredited at Masters level by Engineers Ireland and the programme has been awarded the EUR-ACE® Label as a Second Cycle Accredited European Engineering Programme under the EUR-ACE Framework of Standards for Accreditation of Engineering Programmes

Entry Requirements

  • An honours undergraduate degree (NFQ level 8) with minimum upper second class honours or international equivalence in a relevant Engineering programme.
  • Applicants whose first language is not English must also demonstrate English language proficiency of IELTS 6.5 (no band less than 6.0 in each element), or equivalent.
  • Students meeting the programme’s academic entry requirements but not the English language requirements may enter the programme upon successful completion of UCD’s International Pre-Master’s Pathway programmes.
  • These are the minimum entry requirements – additional criteria may be requested for some programmes.

Testimonial

Graduate Profile - Siúin O’Riordan

"I chose to do the Master’s in Energy Systems Engineering in UCD to broaden my skills and career opportunities and to be trained to work in the energy systems industry. This master’s course allowed me to specialise in energy systems while also gaining important engineering skills. The course included an 8-month professional work placement which was another important factor in choosing the master. This work experience has given me confidence in approaching interviews, working as part of a professional team and developing my future career in the renewable energy sector. The high-quality material provided and the wide variety of modules offered have provided me with a deeper understanding of the current and future technical and economic challenges faced by the world’s energy systems. The master has prepared me to work as an engineer and be involved in future energy solutions."

Last updated Dec 2019

About the School

Welcome to the College of Engineering and Architecture. The College, with over 320 staff and almost 2,200 students (including 626 international students), is the largest and most comprehensive in Irel ... Read More

Welcome to the College of Engineering and Architecture. The College, with over 320 staff and almost 2,200 students (including 626 international students), is the largest and most comprehensive in Ireland. There are six Schools in the College, covering the Engineering disciplines of Chemical, Civil, Electrical, Electronic, Biosystems, Food, Mechanical and Materials Engineering, together with Architecture, Landscape Architecture, Planning and Environmental Policy. Through the Schools, we offer a wide range of undergraduate and taught masters programmes and are committed to the on-going development of both discipline-specific and interdisciplinary teaching and research. Read less