BEng (Hons) Renewable & Sustainable Engineering

Course details

  • UCAS CodeHH36
  • Year of entry 2022, 2023
  • Duration 3 YRS (FT)
  • UCAS Tariff 80-112
  • Institution Code G53
  • Location Wrexham
*Subject to re-accreditation

Course Highlights


to industry standard software packages


from our dedicated maths support centre


to local industrial companies and plants

Why choose this course?

This degree tackles some of the biggest challenges facing mankind today - affordable energy, climate change, global warming and pollution control. For students wanting to be at the forefront of new engineering and cost effective solutions that will help satisfy the need for renewable energy, this degree could be your next step.

The course:

  • Is developed by research-active staff with strong professional and academic experience.
  • Focuses on providing students with the skills and experience needed for careers, working with and developing innovative technologies in a variety of sectors, including renewable energy, sustainable technology, electrical engineering, mechanical engineering and construction.
  • Includes numerous case studies and field visits throughout the course, giving the degree real-world context.
Engineering Council Accredited Degree
Renewable engineering students with solar panels

Engineering atWrexham Glyndŵr University

Thinking of a career in Engineering? Hear from lecturers and students about our Engineering degrees at Wrexham Glyndwr University.

Key course features

  • Excellent facilities that include well-equipped computer-aided design laboratories, modern electronics laboratories, specialist manufacturing systems, simulation software, industry-standard instrumentation laboratories, and industry specification.
  • Rapid Prototyping facility (fused deposition method).
  • Subsonic wind tunnel laboratory and well-equipped thermo-fluid dynamics lab, including a fully operational Pelton wheel and Francis turbine.
  • Small class sizes allow for strong tutorial and laboratory experiment support and advice.
  • Dedicated maths support for students.
  • There are opportunities for industrial visits to local companies, wind farms, biomass plants, hydro plants and the centre for alternative technology.
  • You will have access to industry standard software packages such as Altium Designer, Multisim, HP VEE, MATLAB & Simulink, Abaqus, AutoCAD, Fluent, Pro Engineer, SolidWorks.

What you will study

Our course has a broad base in order to allow you to develop skills and the ability to contribute to the design of renewable energy systems and progress to meet future requirements, both within the UK and worldwide markets.


In year 1 students will develop an understanding of the fundamental concepts, principles and theories in engineering. You will acquire basic mathematic skills related to engineering and design problems, and use CAD for engineering design. You will also gain competence of working safely in engineering laboratories and workshops, and be able to conduct laboratory procedures, measurement and workshop practices under the guidance of a tutor.


  • Energy Systems and Sustainability: Gain fundamental knowledge of modern energy systems and technologies, considering the merits of energy sustainability, renewable technologies, economic and environmental impacts.
  • Sustainable Design: Create and develop a preliminary idea for a new product, device, or system, and evaluate it in terms of its market potential, technical feasibility, and sustainability. The aim is to provide an in-depth awareness of the range of issues concerning sustainable development that could relate to designing, and to develop an understanding of sustainable design.
  • Mechanical Science: Apply engineering mechanics principals; solve mechanical problems, to apply analysis techniques to design problems.
  • Electrical Science: Understand and predict electrical circuits.
  • Engineering Mathematics: Gain a foundation of mathematical knowledge covering a wide range of basic topics and calculus.
  • Engineering Design and Practice: Develop laboratory experiments with particular reference to mechanical and electrical science, to carry out practical tests to evaluate the properties of sample materials to enable selection of appropriate materials to given situations.

From September 2023

• CAD and production Science
• Introduction to Electrical and Mechanical Engineering Science
• Engineering Mathematics
• Engineering professional development
• Future Energy Systems and Sustainability
• Materials and the Environment


Level 5 (year 2) will build on the knowledge, concepts and skills acquired at Level 4 in addition to more specialist knowledge, skills in engineering design and analysis. More in-depth in theories in electrical power engineering, renewable energies, structures and finite element analysis, etc will be explored. You will also develop an understanding of business and research methods.


  • Renewable Energy Engineering: Provide an up-to-date overview of all the major renewable sources and the engineering skills associated with selecting, designing and installing the apparatus to capture its energy and convert it into useful forms. Develop an understanding of energy storage. The aim is to provide an overview of the methods used to predict energy production from various renewable sources and the basic economic value of that energy. Develop techniques to allow a student to apply this knowledge in real-world situations.
  • Business and Research Professional Development: Evaluate business practices within a company and the roles of engineers as team members contributing to the success and further development of that company.
  • Structures Analysis: Develop an overall design philosophy to the design of structures. Use a range of analysis techniques to predict stress and strain leading to the safe design and a range of structures. Analysis of failure mechanisms.
  • Electrical Power Engineering: Current provision in the generation, distribution, protection and utilisation of electrical energy and the customers’ needs.
  • Further Engineering Maths: Further develop knowledge of functions suitable for solving a range of mathematical and engineering problems.

From September 2023

• Further Engineering Maths
• Structures Analysis
• Engineering Futures
• Wind and Hydro Engineering
• Electrical Power Engineering
• Solar, Biomass and Storage Engineering


At Level 6, students will acquire a critical understanding and application of the higher level concepts, principles and theories in engineering, as well as a critical understanding and explanation of advanced topics in composite materials, design, modelling/simulation, and advanced renewable technologies. You will use the knowledge and skills you have acquired to do an individual project.


  • Dissertation: Develop your own idea or innovation and write an engineering dissertation about it.
  • Advanced Renewable Technology: Building on the knowledge gained in Renewable Energy Engineering at Level 5, we develop a comprehensive depth of knowledge of major and complex theories, principles and concepts in a specific field of renewable energy. Develop a critical insightful evaluation of engineering feasibility, economics, environment, equipment availability and specification, grid tie feed in, transport and possible local resistance.
  • Design for X: Learn how to design effective product development methodology, apply lean manufacturing to design, understand design for manufacture and assembly, apply design solutions for the sustainability of products and their life cycles, to envisage how products will be recycled or dissembled after use, to evaluate reverse engineering procedures, whilst understanding intellectually property and patents.
  • Maintenance and Safety Systems: Critical appraisals of industry situations and systems in respect to efficiency, inherent safety and environmental considerations (including carbon footprint).
  • Engineering Modelling & Simulation: Develop an understanding of the analytical skills and knowledge required in the engineering design process and how it can be improved through the use of engineering modelling and simulations. This module develops industry standard software techniques to model and solve specific engineering problems. Typical software examples might be CATIA V5 and ANSYS for mechanically-related programmes, and MATLAB, SIMULINK and VEE for electrically-related programmes.

From September 2023

• Option 1 Mechanical Engineering Modelling and simulation
• Option 2 Electrical and electronic engineering modelling and simulation
• Smart Grids, storage and energy mix
• Option A Energy saving, Low carbon and recycling systems
• Option B Power Electronics and Electrical Machines
• Professional Engineering
• Project


The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Entry requirements & applying

The academic requirements for the course are 80-112 UCAS tariff points at GCE A-level or equivalent. In addition, passes at GCSE in Maths and English/Welsh (First Language) at grade C/4 or above are normally expected.


Teaching & Assessment

A broad range of assessment methods are used. These include task-based exercises, oral and poster presentations, essays and laboratory reports, and written exams. Each module is assessed by a variety of methods, enabling students to display their full potential. A project dissertation will form one of the final parts of your assessment.

Teaching and Learning

Wrexham Glyndŵr University is committed to supporting our students to maximise their academic potential.

We offer workshops and support sessions in areas such as academic writing, effective note-making and preparing for assignments. Students can book appointments with academic skills tutors dedicated to helping deal with the practicalities of university work. Our student support section has more information on the help available.

In terms of particular needs, the University’s Inclusion Services can provide appropriate guidance and support should any students require reasonable adjustments to be made because of a recognised prevailing disability, medical condition, or specific learning difference.

Teaching methods include lectures, laboratory sessions, student-led seminars, field trips and guided research.

Independent learning is an important aspect of all modules, as it enables students to develop both their subject specific and key skills. Independent learning is promoted through guided study or feedbacks given to students.

Career prospects

Our Careers & Employability service is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

The course equips you with a thorough knowledge and skills in engineering at the forefront of new and emerging technologies. Graduates will be well placed to become subject specialists within the industry or to pursue research careers within academia.

This programme prepares students for a career in Renewable Energy and Sustainability related work. Please see to get an idea of the current opportunities available.

Fees & funding

You do not have to pay your tuition fees upfront.

Wrexham Glyndŵr University’s tuition fees for 2022/23 for a full-time undergraduate degree course are £9000 per year.

The fees you pay and the support available will depend on a number of different factors. Full information can be found on our fees & finance pages


Programme specification

You can see the full programme specification here.



If you’re looking for a place to stay while you study then take a look at our accommodation pages to get more information on your options, including our on-campus halls of residence Wrexham Village.

Subject to re-accreditation

External accreditation/recognition by Professional, Statutory and Regulatory Bodies (PSRBs) has to be renewed periodically for existing courses. The details on the website are based on the accreditation of the previous or current version of the course, and the anticipated updates are made as soon as they are known. The majority of courses that are still ‘subject to re-accreditation’ are approved as expected however, this is not guaranteed and should the accreditation not be approved as planned, or be significantly amended or delayed, you will be informed by the University. 


If you are applying as an European / International Student, and live outside of the UK, you should make your application through our online application system, Centurus.

For information about the university’s entry requirements for EU/international students, please visit our international section