Module Code
MEE7032
This course has been developed in close partnership with employers, focused on development skills that employers specifically demand.
WHY MIGHT YOU WANT TO DO THIS COURSE?
You love engineering! You’ll be looking to advance your managerial skills, alongside your technical ability.
But more than that, you want to know how to apply this in the industrial world.
COURSE CONTENT
You will develop competency and skills that include the latest advances in engineering disciplines of energy and
power, manufacture and design. In addition to covering the latest engineering technology, you will be equipped with the creative, commercial, business and management skills that are necessary to be an innovator, entrepreneur and industry leader.
PLEASE NOTE:
Applications for this course received after 30th June for entry in the same calendar year may not be accepted. In addition, a deposit will be required to secure a place.
Applications for this course received after 30th June for entry in the same calendar year may not be accepted. In addition, a deposit will be required to secure a place.
The School has a range of unique laboratory facilities for turbomachinery, engine catalysis, advanced composites manufacturing, industrial-scale materials processing, large-scale structural and materials testing, thermal and chemical analysis, microscopy and x-ray imaging.
State-of-the-art facilities for teaching and research, which have received investments totalling £19m in recent years.
Queen’s is ranked 24th in the UK for Engineering with 96% of our research rated as world-leading or internationally excellent. (REF 2021/ Times Higher Education)
Our commitment to excellence is further exemplified by our recent ranking within the top 25 universities in the UK, and having 28 subjects in the top 20 in the Complete University Guide 2024 rankings. Queen's is also ranked 10 in the UK for graduate prospects (Times and Sunday Times Good University Guide 2024)
We have strong connections with local, UK, and international companies, in industries including aerospace, turbomachinery, automotive, consumer materials, and biomedical devices.
Our Industrial Advisory Board features representatives from
heavyweights like Caterpillar, Spirit AeroSystems, Collins Aerospace, Thales, Wrightbus, and Rolls Royce. They feed into the course content – what they need from graduate engineers, we’ll teach you. External lecturers from our industrial partners come in to teach on the course.
Students study within a vibrant international mix of students and staff from the UK, Europe, Asia, and beyond.
Our small class size means that we can focus on your individual career and development needs, building your skills, enhancing your personal experience of the course and thinking of your career path, rather than just teaching you theory.
This course is accredited by the Institution of Mechanical Engineers (IMechE) and provides a route for you to achieve Chartered Engineer status.
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Course content
Students may enrol on a full-time (1 year) or part-time (3 years) basis. Part-time students typically complete one or two modules per semester. Full-time students typically complete three modules per semester.
The MSc is awarded to students who successfully complete six taught modules (120 CATS points) and a research project (60 CATS points ).
Exit qualifications are available: students may exit with a Postgraduate Diploma by successfully completing 120 CATS points from taught modules or a Postgraduate Certificate by successfully completing 60 CATS points from taught modules.
The degree will consist of 120 CATS of modules from the list below, plus a dissertation (60 CATS). The degree also offers the opportunity for novel, industrially-relevant research projects.
Autumn and Spring Semesters: 6 modules, totalling approx. 60 CATS per semester.
Summer Semester: Project module and dissertation, 60 CATS.
Computer-Aided Engineering (20 CATS)
Manufacturing Technology (20 CATS)
Sustainable Energy Systems (20 CATS)
Engineering Systems and Management (20 CATS)
Business Management and Enterprise (20 CATS)
Research and Data Analytics (20 CATS)
Project and Dissertation (60 CATS)
SMAE
SMAE
SMAE
SMAE
SMAE
The taught module content will be supplemented by guest seminars from industrial experts in the fields of mechanical engineering and business management. These modules are assessed through a combination of practical workshop sessions, independent coursework, and group projects. An Individual Research Project is also undertaken that focuses on applying taught skills to a relevant real-world industrial problem. A dissertation is required to be produced for the project.
Indicative Proportional Mix of Time in Classes, Tutorials/Seminars/Labs, and Private Study in a Teaching Semester
Project and dissertation work involves regular meetings with an academic supervisor, with the remaining time devoted to project management, practical lab or computer work, and preparation for written and oral reporting.
Students will receive feedback on all assessed work, with written and oral feedback provided on an individual basis.
Assessments associated with the course are outlined below:
The information below is intended as an example only, featuring module details for the current year of study (2024/25). Modules are reviewed on an annual basis and may be subject to future changes – revised details will be published through Programme Specifications ahead of each academic year.
Business organization and structures, Business modelling, strategy, PESTLE. Market research,. Management accounting, costs and revenues, break-even analysis, budgeting, financing. Law and ethics for engineers, professional negligence, and ethical principles for professional engineers. Leadership, motivation, and communication styles . Current trends and perspectives on business and enterprise with guest lectures.
Identify and analyse ethical concerns and make reasoned ethical choices informed by professional codes of conduct
Apply knowledge of engineering management principles, commercial context, project and change management, and relevant legal matters including intellectual property rights
Function effectively as an individual, and as a member or leader of a team. Evaluate effectiveness of own and team performance
Apply their skills in communication, information retrieval, working with others and the effective use of general IT facilities
Participate effectively in the operation of a team and collaborate effectively with members of the team
Deliver a report and presentation that succeeds in communicating a series of points effectively
Coursework
80%
Examination
0%
Practical
20%
20
MEE7032
Autumn
12 weeks
Fundamental principles, applications, and potential of key mature sustainable and renewable power sources used globally including: 1) wind power, 2) hydro power, 3) biomass, 4) solar power, and 5) nuclear energy. Other non-mature and/or less widely utilised technologies including a) wave and tidal, b) compressed air energy storage, c) geothermal, and d) energy storage will be introduced at a higher level. Current trends and perspectives on development and application of sustainable energy systems with guest lectures from industry and research, and site visits.
Apply a comprehensive knowledge of mathematics, statistics, natural science and engineering principles to the solution of complex problems. Much of the knowledge will be at the forefront of the particular subject of study and informed by a critical awareness of new developments and the wider context of engineering
Formulate and analyse complex problems to reach substantiated conclusions. This will involve evaluating available data using first principles of mathematics, statistics, natural science and engineering principles, and using engineering judgment to work with information that may be uncertain or incomplete, discussing the limitations of the techniques employed
Select and critically evaluate technical literature and other sources of information to solve complex problems
Design solutions for complex problems that evidence some originality and meet a combination of societal, user, business and customer needs as appropriate. This will involve consideration of applicable health & safety, diversity, inclusion, cultural, societal, environmental and commercial matters, codes of practice and industry standards
Apply an integrated or systems approach to the solution of complex problems
Evaluate the environmental and societal impact of solutions to complex problems (to include the entire life-cycle of a product or process) and minimise adverse impacts
Identify and analyse ethical concerns and make reasoned ethical choices informed by professional codes of conduct
Produce creative and realistic solutions to complex problems
Analyse data using appropriate techniques
Support previously identified areas by using appropriate IT resources
Exercise initiative and personal responsibility, which may be as a team member or leader
Coursework
100%
Examination
0%
Practical
0%
20
MEE7029
Autumn
12 weeks
The project will involve a significant piece of technical work that is undertaken independently by the student, with guidance from the academic supervisor. The project will typically involve elements of literature research, design, experimentation, numerical modelling and analysis, although not necessarily all of these elements.
Apply a comprehensive knowledge of mathematics, statistics, natural science and engineering principles to the solution of complex problems. Much of the knowledge will be at the forefront of the particular subject of study and informed by a critical awareness of new developments and the wider context of engineering
Formulate and analyse complex problems to reach substantiated conclusions. This will involve evaluating available data using first principles of mathematics, statistics, natural science and engineering principles, and using engineering judgment to work with information that may be uncertain or incomplete, discussing the limitations of the techniques employed
Select and apply appropriate computational and analytical techniques to model complex problems, discussing the limitations of the techniques employed
Select and critically evaluate technical literature and other sources of information to solve complex problems
Design solutions for complex problems that evidence some originality and meet a combination of societal, user, business and customer needs as appropriate. This will involve consideration of applicable health & safety, diversity, inclusion, cultural, societal, environmental and commercial matters, codes of practice and industry standards
Evaluate the environmental and societal impact of solutions to complex problems (to include the entire life-cycle of a product or process) and minimise adverse impacts
Identify and analyse ethical concerns and make reasoned ethical choices informed by professional codes of conduct
Use a risk management process to identify, evaluate and mitigate risks (the effects of uncertainty) associated with a particular project or activity
Use practical laboratory and workshop skills to investigate complex problems
Select and apply appropriate materials, equipment, engineering technologies and processes, recognising their limitations
Apply knowledge of engineering management principles, commercial context, project and change management, and relevant legal matters including intellectual property rights
Function effectively as an individual, and as a member or leader of a team. Evaluate effectiveness of own and team performance
Communicate effectively on complex engineering matters with technical and non-technical audiences, evaluating the effectiveness of the methods used
Analyse data using appropriate techniques
Demonstrate analytical and problem-solving skills
Produce a piece of work that demonstrates grasp of subject vocabulary and deploys a range of skills of written expression appropriate to the subject
Deliver a paper or presentation that succeeds in communicating a series of points effectively
Plan self-learning and improve performance, as the foundation for lifelong learning/CPD
Monitor and adjust a personal programme of work on an on-going basis
Exercise initiative and personal responsibility, which may be as a team member or leader
Coursework
100%
Examination
0%
Practical
0%
60
MEE7012
Summer
12 weeks
Technical research skills, including use of databases and repositories (journals, patents, standards), literature and technology searches, critical literature reviews, citation techniques, copyright and plagiarism. Quantitative & qualitative research methods, data collection techniques, sampling theory and survey methods, research integrity and ethics. Mathematical fundamentals, data handling, processing, analysis and statistical techniques, process optimization and decision-making (design of experiments), with implementation in relevant software packages and programming environments. Technical communication and dissemination.
Apply a comprehensive knowledge of mathematics, statistics, natural science and engineering principles to the solution of complex problems. Much of the knowledge will be at the forefront of the particular subject of study and informed by a critical awareness of new developments and the wider context of engineering
Formulate and analyse complex problems to reach substantiated conclusions. This will involve evaluating available data using first principles of mathematics, statistics, natural science and engineering principles, and using engineering judgment to work with information that may be uncertain or incomplete, discussing the limitations of the techniques employed
Select and apply appropriate computational and analytical techniques to model complex problems, discussing the limitations of the techniques employed
Select and critically evaluate technical literature and other sources of information to solve complex problems
Apply an integrated or systems approach to the solution of complex problems
Discuss the role of quality management systems and continuous improvement in the context of complex problems
Function effectively as an individual, and as a member or leader of a team. Evaluate effectiveness of own and team performance
Communicate effectively on complex engineering matters with technical and non-technical audiences, evaluating the effectiveness of the methods used
Complete an information search using a wide range of appropriate primary and secondary sources
Deliver a paper or presentation that succeeds in communicating a series of points effectively
Manage time effectively in order to achieve intended goals
Formulate effective strategies for achieving goals when working with others
Apply skills in problem solving, communication, information retrieval, working with others and the effective use of general IT facilities
Coursework
100%
Examination
0%
Practical
0%
20
MEE7031
Spring
12 weeks
The main focus of this module is on the application of Computer-Aided Engineering in the design and analysis of structural components, especially aerospace structures. The main topics covered in this module include CAD design, Finite Element Analysis (FEA) and Optimisation. You will be taught static, modal, and dynamic (fatigue) finite element analysis (ANSYS) on satellite structures using satellite launcher vibrations and quasi-static loading. The second part of the module is focused on design optimisation. The lectures and computer sessions cover a number of the most important analytical and numerical methods currently available to optimise structural components.
Apply a comprehensive knowledge of mathematics, statistics, natural science and engineering principles to the solution of complex problems. Much of the knowledge will be at the forefront of the particular subject of study and informed by a critical awareness of new developments and the wider context of engineering
Formulate and analyse complex problems to reach substantiated conclusions. This will involve evaluating available data using first principles of mathematics, statistics, natural science and engineering principles, and using engineering judgment to work with information that may be uncertain or incomplete, discussing the limitations of the techniques employed
Select and apply appropriate computational and analytical techniques to model complex problems, discussing the limitations of the techniques employed
Select and critically evaluate technical literature and other sources of information to solve complex problems
Apply an integrated or systems approach to the solution of complex problems
Select and apply appropriate materials, equipment, engineering technologies and processes, recognising their limitations
Part/Assembly conceptual design using Solidworks
Mechanical preliminary design using Solidworks and Finite Element Method (ANSYS).
Mechanical detailed design using Finite Element Method.
Aerospace Structures mechanical and thermal(maybe, depending on module progress) environment.
Function effectively as an individual, and as a member or leader of a team. Evaluate effectiveness of own and team performance
Space environment mechanical loads.
Using CAD and Finite Element method to design CubSat structures.
Coursework
100%
Examination
0%
Practical
0%
20
MEE7027
Autumn
12 weeks
Engineering project planning and management techniques, including project scheduling tools (PERT, Gantt charts, phase–gate analysis), techniques for reducing project duration and cost, mitigating delays and risks, and managing teams. Concepts and techniques for managing engineering systems, including systems structures, systems management and risk, decision analysis and support, systems design (requirements analysis, functional analysis and design, component design, validation). Concepts and techniques for operations, production, and supply-chain management, including labour schedules, forecasting demand, ensuring quality, maintaining inventory, and transporting products and materials. Lean and quality management, value stream mapping, advanced quality planning, lean teams and tools, lean and the supply chain, standardized working. Current trends and perspectives on engineering management with guest lectures from industry and research, and site visits. Advance readings containing case studies will precede each of these major topics, and will form the basis for discussion and content delivery. Follow-on assignments will require application of the content in the context of the case studies (e.g. develop a plan for scheduling an engineering project, analyse an engineering system and propose an alternative system design, plan the supply chain and operations for a process). Group project integrating analysis and planning of multi-part systems.
Select and critically evaluate technical literature and other sources of information to solve complex problems
Use a risk management process to identify, evaluate and mitigate risks (the effects of uncertainty) associated with a particular project or activity
Apply knowledge of engineering management principles, commercial context, project and change management, and relevant legal matters including intellectual property rights
Function effectively as an individual, and as a member or leader of a team. Evaluate effectiveness of own and team performance
None.
Coursework
50%
Examination
50%
Practical
0%
20
MEE7033
Spring
12 weeks
Structure and properties of engineering materials, laser manufacturing processes, as well as joining and assembling processes (welding, brazing, adhesive bonding, mechanical assembly). Control, automation, and metrology assisted automation, standards for quality control. Principles of design for manufacture and assembly (DFMA), techniques for product simplification and cost reduction. Current trends and perspectives on manufacturing technology with guest lectures from industry and research, and practical sessions in School/other manufacturing facilities. Advance readings containing case studies will precede each of these major topics, and will form the basis for discussion and content delivery. Follow-on assignments will require application of this content in the context of the case studies and implementation in manufacturing facilities. Knowledge in laser manufacturing will be accessed by class test.
Apply a comprehensive knowledge of mathematics, statistics, natural science and engineering principles to the solution of complex problems. Some/Much of the knowledge will be at the forefront of the particular subject of study and informed by a critical awareness of new developments and the wider context of engineering
Select and critically evaluate technical literature and other sources of information to solve complex problems
Apply an integrated or systems approach to the solution of complex problems
Select and apply appropriate materials, equipment, engineering technologies and processes, recognising their limitations
Function effectively as an individual, and as a member or leader of a team. Evaluate effectiveness of own and team performance
Communicate effectively on complex engineering matters with technical and non-technical audiences, evaluating the effectiveness of the methods used
Apply skills in problem solving, communication, information retrieval, working with others, and the effective use of general IT facilities.
Coursework
75%
Examination
25%
Practical
0%
20
MEE7028
Spring
12 weeks
Introduction to placement in the engineering sector, CV building, international options, digital citizenship, interview skills, psychometric testing, assessment centres, placement approval, health and safety and wellbeing. Practical sessions on CV building, interview skills, psychometric testing and assessment centres. The module is delivered in-house with the support of the QUB Careers Service and external experts.
Plan and record self-learning and development as the foundation for lifelong learning/CPD
Plan self-learning and improve performance, as the foundation for lifelong learning/CPD
Monitor and adjust a personal programme of work on an on-going basis
Coursework
100%
Examination
0%
Practical
0%
0
MEE7098
Autumn
12 weeks
English language and Academic skills development, contextualised to students’ area of study and mapped to assessment points on their primary QUB course.
Learning outcomes
Learning outcomes
On completion of this module, students will be able to:
• Communicate effectively in English within academic environments related to the
practice of Mechanical and Aerospace Engineering
• Communicate their ideas and understand information which is being communicated to them, via both written and oral routes.
• Critically assess academic resources, both in relation to the language used and the scientific content of the material.
• Identify key aspects in relation to the structure and content of various academic documents and report types in addition to experience and expertise in relation to their synthesis.
• Utilise the subject-specific lexicon, both spoken and written, in a manner specifically focused on terminology commonly used within academic aspects of Mechanical and Aerospace Engineering
• Apply enhancements in academic English language skills to other aspects of their studies, both with respect to comprehension and dissemination of information.
Skills associated with module
On completion of this module, students will have gained skills including, but not limited, to the ability to:
• process and comprehend academic knowledge which is communicated via oral and written routes in English.
• effectively communicate information and ideas in English via all routes, including effective pronunciation of commonly used terminology for application within oral communication.
• critically analyse, correct, and enhance information in English.
• successfully construct and deliver of a range of commonly used academic documents and report types with a focus on the appropriate use of the English language, as well as other key aspects such as logical and appropriate document structure.
Coursework
100%
Examination
0%
Practical
0%
0
MEE7097
Full Year
24 weeks
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Course content
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Entry requirements
Normally a 2.2 Honours degree or equivalent qualification acceptable to the University in a suitable engineering discipline, including substantial Mathematics and engineering content at 2.2 Honours level or equivalent standard, acceptable to the School.
Applicants holding a 2.2 Honours degree or equivalent qualification acceptable to the University in a suitable engineering discipline with performance in key modules below 2.2 Honours standard may be considered on an individual basis. Such applicants will be required to demonstrate a minimum of two years professional experience.
A 2.1 Honours degree in Mathematics or Physics or equivalent qualification acceptable to the University will be considered. Applicants with non-standard qualifications will be considered on an individual basis.
Applicants are advised to apply as early as possible and ideally no later than 30th June 2025 for courses which commence in late September. In the event that any programme receives a high number of applications, the University reserves the right to close the application portal prior to the deadline stated on course finder. Notifications to this effect will appear on the application portal against the programme application page.
Please note: a deposit will be required to secure a place.
Our country/region pages include information on entry requirements, tuition fees, scholarships, student profiles, upcoming events and contacts for your country/region. Use the dropdown list below for specific information for your country/region.
Evidence of an IELTS* score of 6.5, with not less than 5.5 in any component, or an equivalent qualification acceptable to the University is required (*taken within the last 2 years).
International students wishing to apply to Queen's University Belfast (and for whom English is not their first language), must be able to demonstrate their proficiency in English in order to benefit fully from their course of study or research. Non-EEA nationals must also satisfy UK Visas and Immigration (UKVI) immigration requirements for English language for visa purposes.
For more information on English Language requirements for EEA and non-EEA nationals see: www.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.
This Masters degree programme offers a range of modules that can be combined to suit particular career aspirations, and graduates will have the skills and knowledge required to pursue careers in mechanical engineering, technical management, research and other related fields.
The complementary business and management skills developed through the programme are highly sought after by employers keen to recruit engineering graduates with a solid appreciation of the broader commercial industrial environment. Professionally relevant transferrable skills, such as oral and written communication, problem-solving, data analysis, self-direction, and team work are also developed throughout the course.
Queen's postgraduates reap exceptional benefits. Unique initiatives, such as Graduate Plus bolster our commitment to employability, while innovative leadership and executive programmes alongside sterling integration with business experts helps our students gain key leadership positions both nationally and internationally.
The University is ranked joint 8th in the UK for career prospects in Mechanical Engineering (Times Good University Guide)
http://www.qub.ac.uk/directorates/sgc/careers/
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 Graduate Plus/Future Ready Award. It's what makes studying at Queen's University Belfast special.
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Entry Requirements
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Fees and Funding
Northern Ireland (NI) 1 | £7,300 |
Republic of Ireland (ROI) 2 | £7,300 |
England, Scotland or Wales (GB) 1 | £9,250 |
EU Other 3 | £25,800 |
International | £25,800 |
1EU citizens in the EU Settlement Scheme, with settled status, will be charged the NI or GB tuition fee based on where they are ordinarily resident. Students who are ROI nationals resident in GB will be charged the GB fee.
2 EU students who are ROI nationals resident in ROI are eligible for NI tuition fees.
3 EU Other students (excludes Republic of Ireland nationals living in GB, NI or ROI) are charged tuition fees in line with international fees.
All tuition fees quoted relate to a single year of study unless stated otherwise. Tuition fees will be subject to an annual inflationary increase, unless explicitly stated otherwise.
More information on postgraduate tuition fees.
Terms and Conditions for Postgraduate applications:
1.1 Due to high demand, there is a deadline for applications.
1.2 You will be required to pay a deposit to secure your place on the course.
1.3 This condition of offer is in addition to any academic or English language requirements.
Read the full terms and conditions at the link below:
https://www.qub.ac.uk/Study/EPS/terms-and-conditions/
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. 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 programme 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.
The Department for the Economy will provide a tuition fee loan of up to £6,500 per NI / EU student for postgraduate study. Tuition fee loan information.
A postgraduate loans system in the UK offers government-backed student loans of up to £11,836 for taught and research Masters courses in all subject areas (excluding Initial Teacher Education/PGCE, where undergraduate student finance is available). Criteria, eligibility, repayment and application information are available on the UK government website.
More information on funding options and financial assistance - please check this link regularly, even after you have submitted an application, as new scholarships may become available to you.
Information on scholarships for international students, is available at www.qub.ac.uk/Study/international-students/international-scholarships.
Apply using our online Queen's Portal and follow the step-by-step instructions on how to apply.
The terms and conditions that apply when you accept an offer of a place at the University on a taught programme of study.
Queen's University Belfast Terms and Conditions.
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Fees and Funding