Enter OTP
5 Years On Campus Bachelors Program
University of AberdeenThe five-year MEng in Electrical and Electronic Engineering with Renewable Energy at the University of Aberdeen blends core electrical and electronic engineering fundamentals with a comprehensive focus on renewable energy—perfect for students aiming to lead sustainable power solutions in the modern world. You’ll explore advanced technologies across solar, wind, geothermal, hydro, marine, and biomass energy, all guided by specialist faculty and energy industry experts.
Curriculum structure
Year 1
You’ll build a broad engineering foundation with modules like Principles of Electronics, Electronics Design, Engineering Mathematics 1, Fundamentals of Engineering Materials, Fundamental Engineering Mechanics, CAD and Communication in Engineering Practice, and Professional Skills Part 1—setting you up with core circuit knowledge, design skills, engineering maths, and communication techniques.
Year 2
Year two strengthens your engineering toolkit through Engineering Mathematics 2, Fluid Mechanics and Thermodynamics, Process Engineering, Electronic Systems, Design and Computing in Engineering Practice, and Electrical and Mechanical Systems—covering thermal management, system modelling, embedded electronics, and real-world design workflows.
Year 3
Now it gets exciting: you dive into Control Systems, Signals, Systems & Signal Processing, C / C++ Programming, Engineering Analysis and Methods 1, Electrical Power Engineering A, Communications Engineering 1, Electrical & Electronics Engineering Design, Digital Systems, and Project and Safety Management—all designed to hone your skills in system analysis, programming, power engineering, digital logic, and project safety.
Year 4
Your fourth year brings a significant milestone with the MEng Individual Project, alongside modules like Sensing and Instrumentation, Electrical Machines and Drives, Computer and Software Engineering, and Communications Engineering 2—allowing you to lead major projects while advancing your expertise in instrumentation, machinery control, software integration, and communication technologies.
Year 5
You’ll cap off your degree by specialising in key renewable domains through Advanced Control Engineering, Geothermal and Hydro Energy, Energy from Biomass, Renewable Energy Integration to Grid, Marine and Wind Energy, The Engineer in Society, and a MEng Group Design project—equipping you to design, analyse, and integrate diverse renewable systems in both technical and societal contexts.
Focus areas:
Solar, geothermal, wind, marine, hydro, and biomass energy systems; control engineering; power systems; embedded and instrumentation technologies; grid integration.
Learning outcomes:
You’ll learn to design and analyse electrical and renewable energy systems, implement advanced control strategies, integrate diverse energy sources into grids, manage instrumentation and embedded solutions, and frame engineering work within societal contexts through group design and individual projects.
Professional alignment (accreditation):
The five-year MEng Honours degree is accredited and satisfies the educational base for Chartered Engineer (CEng) status through the Engineering Council and relevant institutions such as the IET, ICE, IMechE, and others, giving you a direct route to full professional registration.
Reputation (employability rankings):
The University of Aberdeen is firmly placed in the top 30 UK universities, according to the Complete University Guide. Its Electrical & Electronic Engineering subject ranks about 42nd in the UK, and provides excellent graduate prospects in industry.
From year one, you'll be building foundational engineering skills across electronics, software, and energy systems. As you progress, the course integrates hands-on design, programming, and control systems with in-depth exploration of renewable energy technologies—backed by industry-aligned teaching and specialized labs.
Experiential learning includes:
Comprehensive, real-world curriculum:
You study core engineering topics in the first four years, then dive deeper into renewable energy—covering solar, wind, marine, hydro, geothermal, and biomass technologies so you're industry-ready across all sectors.
Structured, project-based learning journey:
You'll tackle practical modules like Principles of Electronics, CAD & Communications, Electronic Systems, Signals & Control, and Electrical Machine Drives—all building toward Year-4 individual and group projects, including a full MEng Individual Project capstone.
Final-year focus on strategic, sustainable energy systems:
In Year 5, you'll engage in advanced modules such as Renewable Energy Integration to the Grid, Energy from Biomass, Geothermal & Hydro Energy, Advanced Control Engineering, and a major MEng Group Design Project tackling a multidisciplinary challenge.
Embedded software and instrumentation exposure:
Courses like C/C++ Programming, Sensing & Instrumentation, and Communications Engineering ensure you're comfortable coding, working with embedded systems, and handling real-world data interfaces.
Industry expertise embedded in teaching:
Modules are taught by engineering faculty alongside energy industry specialists—ensuring your learning is aligned with current sector needs.
Graduates of the University of Aberdeen's MEng Electrical and Electronic Engineering with Renewable Energy are highly employable, moving into senior roles such as renewable energy systems engineer, smart grid specialist, power electronics consultant, offshore wind energy engineer, and sustainable energy project manager. Many alumni also pursue PhD research or work in advanced sectors including marine energy, grid-scale storage, hydrogen technologies, and decarbonization solutions.
Here's how Aberdeen specifically supports your future:
Career Services & Experiential Learning:
The five-year integrated MEng programme (following the Scottish university system) includes industry placements with renewable energy leaders like SSE Renewables and Ørsted. Students undertake specialist projects in Aberdeen's £20m engineering facilities, including the Offshore Renewable Energy Lab and Smart Grid Research Centre. The curriculum features a major group design project developing renewable energy solutions, supported by the university's dedicated Energy Careers Service which connects students with employers through exclusive recruitment events.
Industry Partnerships & Research:
The programme benefits from Aberdeen's world-leading position in energy research, with collaborations including the National Subsea Centre, Offshore Renewable Energy Catapult, and industry partners like BP and Shell working on energy transition projects. Students access unique facilities including wave/tidal energy test tanks, high-voltage DC labs, and the European Offshore Wind Deployment Centre. The curriculum integrates cutting-edge research in offshore wind power systems, marine energy conversion, grid integration technologies, and hydrogen electrolysis systems.
Graduate Outcomes:
Students develop expert-level competencies in renewable power systems, grid integration, power electronics for energy conversion, and sustainable energy project management - skills in critical demand as global energy systems transition. Recent graduates have secured positions with renewable energy developers, grid operators, and energy consultancies.
Further Academic Progression:
After completing the MEng, graduates can progress to PhD research in specialist renewable energy fields or move directly into senior roles with energy companies, grid operators, or engineering consultancies - supported by Aberdeen's unparalleled industry network in offshore energy and the programme's focus on net-zero technologies.
UCAS Application • Official High School Transcripts • Personal Statement • Educational Resume • Letter of Recommendation by School TeacherEnglish test results: IELTS 6.0 (no band below 5.5), 78 with: Listening - 17; Reading - 18; Speaking - 20; Writing - 21A Levels: ABB (AB required in Mathematics, plus at least one from Physics, Design & Technology, Engineering or Chemistry).International Baccalaureate (IB): 34 points including Mathematics and Physics at HL (6 or above)GCSE: Grade 4/C in GCSE English languageAt Standard XII a minimum percentage of 75% overall, including 75% or more in Mathematics and Physics. Advanced entry to Year 2: at least 85% overall in Year XII as well as at least 85% in maths and physicsUSA curriculum: High School Diploma with a minimum overall average of 3.0, plus both of the following; SAT 1250+ OR ACT composite score of 26+ One of the following standardised subject tests: 1 AP Subject Test with a grade of 3+ from either Math, Biology, Chemistry, or Physics. If taken pre-2020, we will accept 1 SAT Subject Test with a score of 600+ (in a relevant subject) instead of 1 AP. OR One of the following: 3 AP examinations (in relevant subjects): 3+ If taken pre-2020 & 3 SAT subject tests (in relevant subjects): 600+You may be able to enter this programme through Foundation Year pathways if you don’t have the qualifications to enter directlyRenewable Energy EngineerPower Systems EngineerSolar Energy SpecialistWind Turbine EngineerEnergy Storage Solutions DesignerSmart Grid EngineerBioenergy Plant DesignerHydroelectric Systems EngineerOffshore Renewable Energy ConsultantSustainable Infrastructure Project Manager
Embark on your educational journey with confidence! Our team of admission experts is here to guide you through the process. Book a free session now to receive personalized advice, assistance with applications, and insights into your dream school. Whether you're applying to college, graduate school, or specialized programs, we're here to help you succeed.
