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Mechanical Engineering (MSc)
Course OverviewThe MSc is a 12-month, 90 ECTS Level 9 Masters in Mechanical Engineering, which will take engineering (BE) and closely-related graduates to an advanced level of mechanical engineering capability, focusing on advanced design, analysis, materials and manufacture via state-of-the-art technology. The programme is designed to meet the international demand for Level 9 qualifications. This course offers a broad range of advanced engineering modules, including advanced applied mathematics and advanced computational modelling, as well as industry-specific advanced modules in manufacturing technology, offshore engineering, energy and medical device development and materials. A substantial 12-month research thesis allows the students to implement new research skills developed within a specially-designed module on engineering research methods, including publication of the research findings. Each MSc project focuses on a current ‘hot topic’ in mechanical engineering industry and is carried out in collaboration with industry partners.
Applications and Selections
Who Teaches this Course
- Professor Sean Leen
- Professor Peter McHugh
- Professor Padraic O’Donoghue
- Professor Michel Destrade
- Dr Noel Harrison
- Dr Kathryn Cormican
- Dr John Eaton
- Dr Rory Monaghan
- Dr Will Ronan
- Dr Nathan Quinlan
- Dr Pat Donellan
- Dr Pat McGarry
- Dr Padraig Molloy
- Dr Bryan McCabe
- Dr Jim Duggan
- Dr Martin Meere
- Dr Thomas Mullarkey
Requirements and Assessment
1 year, full-time
Next start date
A Level Grades ()
Please refer to the review/closing date website.
Next start date
Mode of study
Course OutlineThis 90 ECTS programme includes a substantial 30 ECTS research project, complemented by 60 ECTS of modules (including 10 ECTS of optional modules). The research project is directly supervised by a member of academic staff for the full 12-month period on a selected industry or research topic and is assessed on the basis of a written thesis. The modules focus on advanced engineering research methods and technology, where students will combine design, computational methods and modelling, as well as experimental testing and prototyping activities, utilizing state-of-the-art research facilities in the New Engineering Building in NUI Galway. Over two semesters, students will take a total of 10 mandatory advanced modules in mechanics, materials, applied mathematics for engineering and research methods. In addition, students will choose two further modules from a choice of nine specialist modules including turbomachines, offshore engineering and advanced energy systems.
Curriculum InformationCurriculum information relates to the current academic year (in most cases).
Course and module offerings and details may be subject to change.
Glossary of Terms
- You must earn a defined number of credits (aka ECTS) to complete each year of your course. You do this by taking all of its required modules as well as the correct number of optional modules to obtain that year's total number of credits.
- An examinable portion of a subject or course, for which you attend lectures and/or tutorials and carry out assignments. E.g. Algebra and Calculus could be modules within the subject Mathematics. Each module has a unique module code eg. MA140.
- Some courses allow you to choose subjects, where related modules are grouped together. Subjects have their own required number of credits, so you must take all that subject's required modules and may also need to obtain the remainder of the subject's total credits by choosing from its available optional modules.
- A module you may choose to study.
- A module that you must study if you choose this course (or subject).
- Required Core Subject
- A subject you must study because it's integral to that course.
- Most courses have 2 semesters (aka terms) per year, so a three-year course will have six semesters in total. For clarity, this page will refer to the first semester of year 2 as 'Semester 3'.
Year 1 (90 Credits)Optional BME6101: Computational Methods in Engineering Analysis - 10 Credits - Semester 1
Optional MP494: Partial Differential Equations - 5 Credits - Semester 1
Optional MP410: Non-Linear Elasticity - 5 Credits - Semester 1
Optional ME432: Technology Innovation & Entrepreneurship - 5 Credits - Semester 1
Optional EG5101: Advanced Energy Systems Engineering - 5 Credits - Semester 1
Required ME5107: Mechanical Engineering MSc Thesis - 30 Credits - Semester 1
Required CT561: Systems Modelling and Simulation - 5 Credits - Semester 1
Required BME5100: Advanced Computational Biomechanics - 5 Credits - Semester 1
Required MP553: Advanced Applied Mathematics for Engineers 1 - 5 Credits - Semester 1
Required ME516: Advanced Mechanics of Materials - 5 Credits - Semester 1
Required ME521: Research Methods for Engineers - 5 Credits - Semester 1
Optional ME426: Turbomachines and Advanced Fluid Dynamics - 5 Credits - Semester 2
Optional ME429: Polymer Engineering - 5 Credits - Semester 2
Optional CE6113: Energy in Buildings - 5 Credits - Semester 2
Optional CE6101: Coastal and Offshore Engineering I - 5 Credits - Semester 2
Required CE509: Advanced Structures - 5 Credits - Semester 2
Required ME5171: Combustion Science and Engineering - 5 Credits - Semester 2
Required MP554: Advanced Applied Mathematics for Engineers 2 - 5 Credits - Semester 2
Required ME5106: Advanced Manufacturing - 5 Credits - Semester 2
Required BME501: Advanced Finite Element Methods - 5 Credits - Semester 2
Why Choose This Course?
- Mechanical engineering industry (e.g., power generation, renewable energy, machine tool manufacture, equipment manufacture, transport and aerospace industry, traditional and advanced manufacturing industries, offshore oil and gas industry)
- Biomedical engineering industry (e.g., medical device research and development)
- Engineering management
- Software (engineering) development
- Engineering consultancy
- Further advanced research (e.g., PhD)
Who’s Suited to This Course
Related Student Organisations
Fees: Student levy
Fees: Non EU
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