The main objective of this engineering degree is to produce graduates with a broad and balanced set of skills and attributes required for the design and manufacture of innovative technical products. It is a variant of the Mechanical Engineering degree, which after first year, focuses on design process methodology, materials and manufacturing themes.
The integrated curriculum connects content from different modules through team-based and individual projects, which act as a core activity each year.
Product Design Engineering Degree highlights
We put emphasis on hands on, project based learning, and invest heavily in our state-of-the-art facilities and flexible project spaces to support this activity.
- Students have the opportunity to work or study outside the UK through the IAESTE, Erasmus, Study Abroad and Study USA programmes. In recent years students have been placed in Argentina, Australia, Brazil, Canada, Finland, France, Japan, Malaysia and the USA.
- BEng and MEng degrees are accredited by the Institution of Mechanical Engineers.
- The School has strong links with both local and international engineering employers, and has longstanding relationships with companies such as Bombardier, Caterpillar, ExxonMobil, Ford, Jaguar Land Rover, Lotus, McLaren F1, Michelin and Rolls Royce. The curriculum is heavily informed by industry representatives who sit on an advisory board within the School.
- Students are offered an optional Engineering Leadership Programme and a range of Employability Development workshops.
- All of Product Design Engineering degrees come with the option of a sandwich year in industry. You can spend up to 12 months getting hands on experience of a real engineering environment with a relevant company. Students have gained work placements with organisations such as Airbus UK, Cummins Turbo Technologies, Lockheed Martin, Mercedes Benz High Performance Engines, Nacco Materials Handling Ltd, and Red Bull Technology Ltd. Students also have the opportunity to work or study outside the UK through programmes such as IAESTE, Erasmus, Study Abroad and Study USA. In recent years, students have undertaken placements in companies in Argentina, Brazil, Canada, Finland, France, Japan, Malaysia and the USA.
World Class Facilities
- The School has a wide range of experimental facilities to support aerodynamics, structures, materials and manufacturing teaching. It also operates a flight simulator and runs an annual flight laboratory course.
- BEng students who demonstrate a high level of performance may be invited to transfer to the equivalent MEng degree at the end of Stage 2.
The emphasis is on engineering science fundamentals:
CAD modules develop a key skill needed for project work in subsequent years
Short projects concentrate on dissection and analysis of existing products
The Introduction to Product Design module develops discipline-specific skills related to design methodology, problem-solving, sketching and model making
Stage 1 courses are outlined below:
Introduction to Product Design
Laboratory Programme 1
Mechanics of Materials 1
Thermo and Fluid Mechanics 1
Dynamic Systems 1
Engineering Design 1
Student projects form a significant part of Stage 2, and they focus on the production and testing of prototypes, along with an understanding of the influence of manufacturing processes on design. Supporting modules enable the application of relevant technical knowledge, professional skills and attributes.
Stage 2 courses are outlined below:
Professional Studies 2
Mechanics of Materials 2
Design and Manufacturing 2
Design & Prototyping Projects
Maths and Computing 2
Manufacturing Technology 2
In Stage 3, BEng students undertake a major individual project while MEng students work in groups on their major project. Additional industry-focussed project activities are supported by a number of external collaborators. Engineering science subjects focus on materials and manufacturing.
Stage 3 courses are outlined below:
Professional Studies 3
Product Design & Development Studies
Production Management 3
Polymer Materials 3
Design for Manufacture 3
Finite Element Analysis 3
Computational Fluid Dynamics 3
Polymer Processing 3
People teaching you
J Paul Hermon
Senior Lecturer (Education), Director of Education
Mech and Aerospace Engineering
A graduate Mechanical Engineer (MEng, QUB 1987), Paul worked as a process development engineer in the electronics manufacturing industry for both Lucas Industries (Antrim) and Digital Equipment (Galway). Returning to Queen's in the 90s, initially as a designer of bespoke machines for automated assembly and then as an engineering and product design consultant working across a broad range of industry sectors while based in the Northern Ireland Technology Centre (NITC). He has been a member of academic staff in the School of Mechanical and Aerospace Engineering since 2005 and is Programme Director for the Product Design Engineering (PDE) degree. The objective of this degree is to produce graduates with the knowledge, skills and abilities that will enable them to act as catalysts of change in companies. Co-Chair of the UK & Ireland region of the CDIO Initiative; an international collaboration of over 100 leading universities spread across 5 continents which aims to reform engineering education by teaching in the context of Conceiving, Designing, Implementing and Operating a product, process or system. (http://www.cdio.org ) Co-Author of “Engineering Innovative Products: A Practical Experience�� which looks at the teaching of essential skills required to enable engineering students to establish technology based companies. (http://eu.wiley.com/WileyCDA/WileyTitle/productCd-1118757734.html)
Contact Teaching Times
|Large Group Teaching|
10 (hours maximum)
hours of lectures
|Medium Group Teaching|
7 (hours maximum)
hours of practical classes, workshops or seminars each week
24 (hours maximum)
22-24 hours studying and revising in your own time each week, including some guided study using handouts, online activities etc
|Small Group Teaching/Personal Tutorial|
1 (hours maximum)
hours of tutorials (or later, project supervision) each week
Learning and Teaching
The School of Mechanical and Aerospace Engineering plays a leading role in an international initiative to reform engineering education which involves over 50 universities worldwide. Support for participation in this initiative was secured through funding to set up a Centre of Excellence in Active and Interactive Learning at Queen's. As a result, our degree programmes have many innovative features that enhance student learning.
Through the programme, there is an emphasis placed on the development of a balanced set of personal, interpersonal and professional skills.
At Queen’s, we aim to deliver a high quality learning environment that embeds intellectual curiosity, innovation and best practice in learning, teaching and student support to enable student to achieve their full academic potential. Students studying for the BEng in Aerospace Engineering are provided with a broad range of learning experiences to enable them to develop as individuals, to engage with subject experts from both academia and industry, and to develop an enquiring mind to enhance their development as independent, lifelong learners. Access to industry standard engineering tools, a world class library facility and courses taught by industrial experts provides a breadth of opportunity to develop students’ interests in the aerospace sector, supported by formal lectures and tutorials. There are a wide range of learning opportunities, including:
The Queen’s Online Virtual Learning Environment provides access to a wealth of information and supporting learning information, including additional module resources, reading lists and message boards to communicate with class members.
Northern Ireland has a vibrant Aerospace industry, and as part of the BEng Aerospace Engineering degree programme, students will undertake a number of visits to Aerospace companies across Northern Ireland to understand what the role of a practicing Aerospace Engineer is in industry, and to relate module content to a real-life work environment.
Individual research projects
As part of the degree, students will undertake a research project in their final year in conjunction with an academic supervisor, looking in detail at a specialist topic in Aerospace Engineering. This will provide students the opportunity to engage with the aerospace engineering design and development process, while embedding core skills in project management, reporting and presentation skills.
Formal lectures are timetabled to introduce basic information and concepts about key topics and themes in Aerospace engineering, and to provide a starting point to guide further self-directed private study. This provides an invaluable opportunity to both engage with academic subject experts and also to gain feedback and advice. Through the degree course, a number of lectures are also given by industrial subject matter experts, to ensure that students have the opportunity to discuss the industrial applications.
Undergraduates are allocated a Personal Tutor who meets with them during the year to support their academic development.
A key aspect of any engineering degree is the ability to be able to competently transfer engineering scientific principles into practice. Students will be provided with numerous opportunities to develop core technical skills through practical laboratories and design exercises during your degree programme, and will become confident in the use of a wide range of industrial standard engineering design and analysis tools. For example, in Stage 1, students would be expected to attend 3 hours of laboratories per week, and in Stage 3, this will rise to 6 hours per week of practical design-build-fly activities.
This is an essential part of life as a Queen’s student when important private reading, engagement with e-learning resources, reflection on feedback to date and assignment research and preparation work is carried out.
The majority of lectures are supported through tutorial sessions, providing opportunities for discussion about problems posed in accompanying lectures. Again, tutorials provide valuable opportunities to engage with academic staff to obtain help and feedback outside of the formal lecture environment.
As part of our sandwich programme, students may elect to take a work-placement after Stage 3. An employability programme provides support on application and CV completion, interviews and what to expect on placement, while our dedicated Placement Officer provides both information on current placement opportunities, and ‘on placement’ support.
Details of assessment are outlined below:
The way in which students are assessed will vary according to the learning objectives of each module. Most modules are assessed through a combination of coursework and end of semester examinations. Some modules [e.g. final year Honours Project module] are assessed solely through project work or written assignments. Details of how each module is assessed are shown in the Student Handbook which is provided to all students during their first year induction.
As students’ progress through their course at Queen’s they will receive general and specific feedback about their work from a variety of sources including lecturers, module co-ordinators, placement supervisors, personal tutors, advisers of study and peers. University students are expected to engage with reflective practice and to use this approach to improve the quality of their work. Feedback may be provided in a variety of forms including:
Feedback provided via formal written comments and marks relating to work that you, as an individual or as part of a group, have submitted.
Face to face comment. This may include occasions when you make use of the lecturers’ advertised “office hours” to help you to address a specific query.
Placement employer comments or references.
Online or emailed comment.
General comments or question and answer opportunities at the end of a lecture, seminar or tutorial.
Pre-submission advice regarding the standards you should aim for and common pitfalls to avoid. In some instances, this may be provided in the form of model answers or exemplars which you can review in your own time.
Feedback and outcomes from practical classes.
Comment and guidance provided by staff from specialist support services such as, Careers, Employability and Skills or the Learning Development Service.
Once you have reviewed your feedback, you will be encouraged to identify and implement further improvements to the quality of your work.
The school offers a range of state-of-the-art facilities to support student activity and project based learning
Computer Based Learning
Flexible Project Environments
Successful completion of Access Course with 80% in each module.
Must be a relevant Access Course including two modules in Mathematics (Level 3) and two modules in Physics (Level 3).
In addition, to the entrance requirements above, it is essential that you read our guidance notes on 'How we choose our students' prior to submitting your UCAS application.
Applications are dealt with centrally by the Admissions and Access Service rather than by the School of Mechanical and Aerospace Engineering. Once your application has been processed by UCAS and forwarded to Queen's, an acknowledgement is normally sent within two weeks of its receipt at the University.
Selection is on the basis of the information provided on your UCAS form, which is considered by a member of administrative staff from the Admissions and Access Service and, if appropriate, the Selector from the School. Decisions are made on an ongoing basis and will be notified to you via UCAS.
Applicants for the BEng Honours in Product Design Engineering must be able to satisfy the University's General Entrance Requirement; in addition, it should be noted that a performance at GCSE is important. For last year's entry, applicants for this BEng programme must have had, or been able to achieve, a minimum of 5 GCSE passes at grade C or above to include Mathematics. Applicants not offering Physics at A-level require GCSE Physics at grade C /Double Award Science at grades CC or above. Selectors will also check that any specific subject and grade requirements in terms of A-level can be fulfilled (see Entry Requirements).
Offers are normally made on the basis of 3 A-levels. Two subjects at A-level plus two at AS are also considered. Applicants are not normally asked to attend for interview.
The offer for repeat applicants is normally set one grade higher than those taking A-levels for the first time. Grades may be held from the previous year.
A-level General Studies and A-level Critical Thinking are not normally considered as part of a three A-level offer and, although they may be excluded where an applicant is taking 4 A-level subjects, the grade achieved could be taken into account if necessary in August/September.
Applicants offering other qualifications, such as Edexcel Extended Diploma, Higher National Certificates or Diplomas in a relevant subject, will also be considered.
The same GCSE profile is usually expected of those candidates taking a BTEC Extended Diploma and must include both GCSE Mathematics grade C and GCSE Physics grade C/Double Award Science at grade CC or better. A relevant BTEC Extended Diploma in Engineering (180 credits at Level 3) is required for entry to this degree and must include Level 3 Mathematics for Technicians and Level 3 Further Mathematics for Technicians. Where offers are made, these are currently conditional on successful completion of the Extended Diploma with 100 credits at Distinction and 80 credits at Merit, with Distinctions required in four specified units, including Mathematics for Technicians and Further Mathematics for Technicians.
Applicants offering a Higher National Certificate (HNC) will require an appropriate GCSE profile, which must include grade C or better in GCSE Mathematics. A relevant HNC in Engineering is required, including Analytical Methods. Where offers are made for Stage 1 entry, these are currently conditional on successful completion of this HNC with 8 Merits, including Merits in three specified units i.e. Analytical Methods, Mechanical Principles and Engineering Science.
For those offering a Higher National Diploma (HND), some flexibility may be allowed in terms of GCSE profile, but this must include grade C or better in GCSE Mathematics. To be eligible for an offer, the grades obtained in the first year of the HND must allow the overall offer to be achievable. A relevant HND in Engineering is required for admission to this degree and offers for Stage 1 entry are currently conditional on successful completion of this HND with 9 Merits and 7 Passes overall, with Merits required in Analytical Methods, Mechanical Principles and Engineering Science. Applicants with sufficiently high grades in the first year of a relevant HND in Engineering may be considered for entry to Stage 2 and, where offers are made, these are currently conditional on successful completion of this HND with 12 Merits and 4 Passes overall, with Merits required in Analytical Methods, Further Analytical Methods, Mechanical Principles, Engineering Science, Fluid Mechanics and Engineering Thermodynamics/Heat Transfer and Combustion.
Applicants offering a suitable Access/Certificate in Foundation Studies course will be considered individually on their own merits. The Access course should have substantial Mathematics and Science (i.e. Physics and/or Chemistry) content at level 3. Where offers were made last year, these were conditional on successful completion of this Access course with 80% in each module.
Applicants offering a combination of Scottish Advanced Highers and Scottish Highers, the International Baccalaureate or Irish Leaving Certificate, will also be considered.
The information provided in the personal statement section and the academic reference together with predicted grades are noted but these are not the final deciding factors in whether or not a conditional offer can be made. However, they may be reconsidered in a tie break situation in August.
If you are made an offer then you will be invited to an Open Day, which is usually held on a Saturday in late February or early- mid March. This will allow you the opportunity to visit the University and to find out more about the degree programme of your choice; the facilities on offer. It also gives you a flavour of the academic and social life at Queen's.
If you cannot find the information you need here, please contact the University Admissions and Access Service here, giving full details of your qualifications and educational background.
For information on international qualification equivalents, please check the specific information for your country.
English Language Requirements
An IELTS score of 6.0 with a minimum of 5.5 in each test component or an equivalent acceptable qualification, details of which are available at: http://go.qub.ac.uk/EnglishLanguageReqs
If you need to improve your English language skills before you enter this degree programme, INTO Queen's University Belfast offers a range of English language courses. These intensive and flexible courses are designed to improve your English ability for admission to this degree.
- Academic English: an intensive English language and study skills course for successful university study at degree level
- Pre-sessional English: a short intensive academic English course for students starting a degree programme at Queen's University Belfast and who need to improve their English.
INTERNATIONAL STUDENTS - FOUNDATION AND INTERNATIONAL YEAR ONE PROGRAMMES
INTO Queen's offers a range of academic and English language programmes to help prepare international students for undergraduate study at Queen's University. You will learn from experienced teachers in a dedicated international study centre on campus, and will have full access to the University's world-class facilities.
These programmes are designed for international students who do not meet the required academic and English language requirements for direct entry.
The INTO progression course suited to this programme is
- International Year One
The INTO progression course suited to this programme is
INTO - English Language Course(QSIS ELEMENT IS EMPTY)
Graduates have been successful in gaining high-quality jobs in the discipline of product design engineering. The majority are working in manufacturing companies or design consultancies in the UK and Ireland. Their broad skill sets and experience have enabled them to fit in equally well in both small, dynamic companies and larger organisations.
Graduates have secured jobs in a variety of sectors including automotive, domestic appliances, design consultancy, electronics, packaging, materials handling, polymers, renewables, aerospace and medical devices.
Companies employing recent graduates include Glen Dimplex, Dyson, Lotus, Survitec, Rockwell Collins, Terex, Leckey Design, Seven Technologies, Whale, Solmatix, Andor, Kingspan Environmental, Nacco, Intel, Accenture.
Whilst the vast majority of graduates are employed in product design or design engineering, some others have developed careers in other sectors such as management and education.
Many of our former graduates have risen to the top of their fields and include many famous figures; for example:
Michael McKay: Flight Operations Director for ESA Mars and Lunar Missions, European Space Agency
Michael Ryan: Vice President and General Manager, Bombardier Aerospace, Belfast
Bob Bell: Technical Director of Mercedes GP.
Air Commodore David Case: Royal Air Force.
Additional Awards Gained(QSIS ELEMENT IS EMPTY)
Prizes and Awards(QSIS ELEMENT IS EMPTY)
Degree plus award for extra-curricular skills
In addition to your degree programme, at Queen's you can have the opportunity to gain wider life, academic and employability skills. For example, placements, voluntary work, clubs, societies, sports and lots more. So not only do you graduate with a degree recognised from a world leading university, you'll have practical national and international experience plus a wider exposure to life overall. We call this Degree Plus. It's what makes studying at Queen's University Belfast special.
The tuition fee rates for undergraduate students who first enrol at the University in the academic year 2018-19 have not been agreed. Tuition fees for 2019-20 will be based on 2018-19 levels, normally increased by inflation and these are set out below.
|Northern Ireland (NI)||£4,160|
|England, Scotland or Wales (GB)||£9,250|
|Other (non-UK) EU||£4,160|
Tuition fee rates are calculated based on a student’s tuition fee status and generally increase annually by inflation. How tuition fees are determined is set out in the Student Finance Framework.
Additional course costs
Depending on the programme of study, there may be extra costs which are not covered by tuition fees, which students will need to consider when planning their studies.
Students can borrow books and access online learning resources from any Queen's library.
If students wish to purchase recommended texts, rather than borrow them from the University Library, prices per text can range from £30 to £100. A programme may have up to 6 modules per year, each with a recommended text.
Students should also budget between £30 to £75 per year for photocopying, memory sticks and printing charges.
Students undertaking a period of work placement or study abroad, as either a compulsory or optional part of their programme, should be aware that they will have to fund additional travel and living costs.
If a final year includes a major project or dissertation, there may be costs associated with transport, accommodation and/or materials. The amount will depend on the project chosen. There may also be additional costs for printing and binding.
Students may wish to consider purchasing an electronic device; costs will vary depending on the specification of the model chosen.
There are also additional charges for graduation ceremonies, examination resits and library fines.
Product Design Engineering costs
Year 1 students may wish to buy their own set of specialist marker pens for rendered drawings (£50) and a vernier caliper instrument (£10-£20). Year 2 students incur travel costs to Belfast Metropolitan College to attend a compulsory module lasting 12 weeks at an approximate cost of £50. Students must also make a payment of £20 in year 2 to cover materials used in Manufacturing Technology 2.
How do I fund my study?
There are different tuition fee and student financial support arrangements for students from Northern Ireland, those from England, Scotland and Wales (Great Britain), and those from the rest of the European Union.
Information on funding options and financial assistance for undergraduate students is available at http://www.qub.ac.uk/Study/Undergraduate/Fees-and-scholarships/.
Each year, we offer a range of scholarships and prizes for new students. Information on scholarships available.
Information on scholarships for international students, is available at http://www.qub.ac.uk/International/International-students/International-scholarships/.
How to Apply
Application for admission to full-time undergraduate and sandwich courses at the University should normally be made through the Universities and Colleges Admissions Service (UCAS). Full information can be obtained from the UCAS website at: www.ucas.com/apply.
When to Apply
UCAS will start processing applications for entry in autumn 2019 from 1 September 2018.
Advisory closing date: 15 January 2019 (18:00).
Late applications are, in practice, accepted by UCAS throughout the remainder of the application cycle, but you should understand that they are considered by institutions at their discretion, and there can be no guarantee that they will be given the same full level of consideration as applications received by the advisory closing date.
Applicants are encouraged to apply as early as is consistent with having made a careful and considered choice of institutions and courses.
The Institution code for Queen's is QBELF and the institution code is Q75.
Further information on applying to study at Queen's is available at: http://www.qub.ac.uk/Study/Undergraduate/How-to-apply/
Apply via UCAS
After an offer is made this will be notified to applicants through UCAS. Confirmation will be emailed by the Admissions and Access Service and this communication will also include Terms and Conditions (www.qub.ac.uk/Study/TermsandConditions) which applicants should read carefully in advance of replying to their offer(s) on UCAS Track.
Additional Information for International (non-EU) Students
- Applying through UCAS
Most students make their applications through UCAS (Universities and Colleges Admissions Service) for full-time undergraduate degree programmes at Queen's. The UCAS application deadline for international students is 30 June 2019.
- Applying direct
The Direct Entry Application form is to be used by international applicants who wish to apply directly, and only, to Queen's or who have been asked to provide information in advance of submitting a formal UCAS application. Find out more.
- Applying through agents and partners
The University’s in-country representatives can assist you to submit a UCAS application or a direct application. Please consult the Agent List to find an agent in your country who will help you with your application to Queen’s University.
Register your interest
Mechanical & Aerospace Engineering
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