Overview
The MEngSc Mechanical Engineering (Manufacturing, Process and Automation Systems) is a full-time programme running for 12 months from the date of first registration for the programme.
In Part I, students must take 20 credits of core modules and select 40 credits of elective modules. Part II consists of (ME6020) to the value of 30 credits, which is completed over the summer months.
Modules in Part I are offered subject to availability. Alternative modules may be offered. The choice of modules is subject to the approval of the Programme Coordinator.
Postgraduate Diploma in Mechanical Engineering (Manufacturing, Process and Automation Systems)
A candidate, who passes Part I but does not achieve an average mark of at least 50% across the taught modules excluding the Preliminary Research Project (ME6019) or does not achieve a mark of at least 50% in the Preliminary Research Project (ME6019) at the first attempt, or does not achieve a mark of at least 50% in the Dissertation in Mechanical Engineering (ME6020) will be awarded a Postgraduate Diploma in Mechanical Engineering (Manufacturing, Process and Automation Systems). A candidate, who passes the Part I examination and does not wish to proceed to Part II, may opt to be conferred with a Postgraduate Diploma in Mechanical Engineering (Manufacturing, Process and Automation Systems.
Programme Requirements
For information about modules, module choice, options and credit weightings, please go to Programme Requirements.
Programme Requirements
Students take 90 credits as follows – all listed core modules in Part I (20 credits), elective modules in Part I to the value of 40 credits, and 30 credits of Research in Part II:
Module List
Code |
Title |
Credits |
| |
ME6019 | Preliminary Research Project | 10 |
MG6021 | Operations Management | 5 |
MG6315 | Project Management | 5 |
| 40 |
| |
| CAD/CAM (5) | |
| Non-Destructive Testing (5) | |
| Mechanical Systems (5) | |
| Robotics (5) 1 | |
| Advanced Robotics (5) 1 | |
| Finite Element Analysis (5) | |
| Programming in Python (5) 2 | |
| Programming in Python with Applications (5) 2 | |
| Data Analytics for Engineering (5) | |
| Biomedical Systems (5) | |
| Industrial Automation and Control (5) | |
| |
| Pharmaceutical Engineering (5) | |
| Optimisation and Continuous Process Improvement (5) | |
| Mechanical Design of Process Equipment (5) | |
| Energy in Buildings (5) | |
| Energy Systems in Buildings (5) | |
| Introduction to Micro Electromechanical Systems (MEMS) (5) | |
| |
ME6020 | Dissertation in Mechanical Engineering | 30 |
Total Credits | 90 |
Examinations
Full details and regulations governing Examinations for each programme will be contained in the Marks and Standards Book and for each module in the Book of Modules.
Programme Learning Outcomes
Programme Learning Outcomes for MEngSc in Mechanical Engineering (Manufacturing, Process and Automation Systems) (NFQ Level 9, Major Award)
On successful completion of this programme, students should be able to:
1
1-1
Demonstrate a thorough understanding of the principles and theoretical bases of modern manufacturing techniques, automation, and production processes;
1-2
2
Identify appropriate manufacturing systems for different production requirements, and describe their performance using appropriate analytical and modelling methods;
1-3
3
Apply appropriate technology, quality tools and manufacturing methodology to design, re-design and continuously improve the manufacturing operations of engineering companies;
1-4
4
Plan, research, execute and oversee experiments and research projects, critically analyse and interpret data, and effectively disseminate the results;
1-5
5
Work effectively as a member of a multidisciplinary team, be self-motivated and able to work independently, and demonstrate leadership;
1-6
6
Communicate effectively, via appropriate presentation techniques and technical publications, to other engineers, professionals, and society at large;
1-7
7
Demonstrate an understanding of the role of the mechanical engineer in society and their responsibility for ethical, environmental and safety issues;
1-8
8
Produce a dissertation in mechanical engineering and disseminate the results of their research via appropriate presentation techniques.