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Mechanical Engineering – BEng (Add-on)

  • Campus: Athlone

  • years: 1


Course Overview

Mechanical Engineering is an exciting and dynamic field that blends scientific knowledge with practical application. This programme is a one year add on degree, open to Level 6 graduates in Mechanical Engineering or related disciplines and leads to a Level 7 Bachelor of Engineering in Mechanical Engineering degree. ​

Mechanical Engineering is a discipline that involves taking our scientific knowledge and understanding of the natural world and using it to invent, design, and build solutions to various issues we face every day. It’s about developing innovative products, designing efficient machinery, and creating sustainable systems. Mechanical engineers play a critical role in a wide array of industries by leveraging their expertise in materials, mechanisms, power, energy, and manufacturing technologies.

Contact Details

Eoin McIntyre

Email: Eoin.McIntyre@tus.ie

Phone: (090) 6468176

Entry Requirements

Entry to the programme is restricted to holders of an appropriate Level 6 degree such as a Bachelor of Engineering in Mechanical Engineering or Bachelor of Engineering in Mechanical Engineering with Energy or a degree in any relevant engineering discipline or an equivalent Level 6.

International Applicants

International applicants should apply directly to the International Office at TUS, allowing plenty of time for completing the visa process. Applications for September start should be made by 1st June at the latest to ensure visas are processed in time. You should familiarise yourself with visa processing times for your country of origin to ensure you make a timely application. Find out more here.

Modules Overview

  • Statistics and Lean Sigma 3

    Credits: 5

    This module provides Engineering Students with statistical tools required for evaluating process performance with the intention of making improvements and maintaining control.

  • Mechanical Systems Design 3

    Credits: 5

    Stress analysis of engineering design problems. Using mathematical tools to solve design problems involving compound structures, non-uniform cross sections, mechanical and thermal stresses.

  • Control & Automation 3

    Credits: 5

    This module aims to promote a basic understanding of control theory and robot kinematics while building on the students existing knowledge of programmable controllers in dealing with sequencing control tasks.

  • Heat Transfer 3

    Credits: 5

    This module aims to enhance the students’ understanding of the physical behaviour of heat transfer principles by applying them to a range of thermal systems and processes. This involves the utilisation of the various heat transfer concepts and techniques in characterising and solving real life heat transfer problems, such as practical heat exchangers.

  • Energy Systems & Thermofluids 3

    Credits: 5

    The practical and theoretical aspects of the Thermodynamic Laws with an emphasis on the processes, the environment and society are explored. Candidates develop their comprehension of these laws through an integrated and applied approach and develop their ability to analyse thermodynamic and thermofluidic systems. The module contains theoretical, practical and empirical material.

  • Mathematics 3

    Credits: 5

    This module is designed to introduce students to problem-solving using Laplace transforms, linear programming, matrices and statistics

  • Project Evaluation and Management 3

    Credits: 5

    The module will enable students to critically evaluate project proposals as well as plan and manage their own projects and participate in industrial projects.

  • Industrial Placement 3

    Credits: 25

    Industrial Placement forms an integral part of the degree programme. Learners must complete the requisite industrial experience with a suitable commercial body for a minimum period of 24 weeks. A student may extend this period by mutual agreement with the company/host. Throughout this period learners will work on the preparation of an evidenced backed portfolio. On completion of this work experience learners will be assessed by a number of methods including reports, presentations, poster presentations and interviews.

What can you do after this course?

Successful candidates of this programme are eligible to apply for our 1 year add-on Level 8 Bachelor of Engineering (Hons) in Mechanical Engineering degree.

Mechanical engineers are responsible for the design, manufacture and operation of the mechanical systems and processes that are all around us. Upon completion of this programme graduates can expect to find employment at the technician level in high-tech manufacturing industries, mechanical industries, building services and design. Engineering graduates at this level will work in design, manufacturing and production, quality control, automation, planning logistics and supply, technical sales support with contracting and technical service industries. The course equips students with the theoretical knowledge and hands-on practical expertise demanded by leading global employers to work in this constantly evolving field.

Further Information

The Faculty of Engineering & Informatics at TUS Midlands has a long tradition of delivering mechanical engineering courses that meet the ever-changing needs of modern industry. Our close relationship with industry ensures that our programmes have a practical and applied focus that will give you hands-on experience of the most relevant areas to today’s enterprises.

  • Materials Science: Understand the properties and applications of different materials used in engineering and how to select appropriate materials for an engineering application.
  • Mechanisms: Explore the fundamentals of how machines and mechanical systems operate, and how to evaluate their performance.
  • Power Systems: Learn about the generation, transmission, and usage of power in various forms as applied to mechanical and manufacturing machines.
  • Energy Management and Sustainability: Study the efficient use and conservation of energy in engineering processes and systems.
  • Manufacturing Technology: Gain insights into modern manufacturing techniques and technologies.

At TUS Midlands, Engineering education is very practical. Almost 50% of your time will be spent in state-of-the-art laboratories developing your practical engineering skills, and the other 50% will be spent on engineering theory and its application.

While studying on this course our students will:

  • Visit some of our industrial partners to experience the role of a mechanical engineer.
  • Operate high-end technical engineering equipment in our cutting edge engineering laboratories
  • Improve their teamwork and communications skills by working as part of small teams on problem-solving and projects.
  • Will develop their problem – solving skills and reasoning techniques.
  • Will work on topic-specific problems, both as part of a team and as an individual and develop your lifelong learning skills.
  • Will develop an ethical awarenews with regard to the engineering profession, the environment and society.
  • Gain valuable work experience in 3rd year by completing a six month work placement.
  • Comprehensive Syllabus: Covering a wide range of essential topics in mechanical engineering.
  • Hands-On Experience: Engage in practical workshops and laboratory sessions that allow you to apply theoretical knowledge to real-world scenarios.
  • Industry-Relevant Curriculum: Our course content is designed in collaboration with industry experts to ensure that you gain skills that are in demand in today’s job market.
  • Industry Placement: Gain valuable work experience by completing a six month work placement in industry.
  • Experienced Faculty: Learn from industry experts and seasoned professionals.
  • State-of-the-Art Facilities: Access to modern laboratories and equipment.
  • Cutting-Edge Technology: Access state-of-the-art facilities and tools that are used in modern mechanical engineering and manufacturing practices.

At TUS Midlands our students gain a set of transferable skills with a strong focus on practical experiments, problem solving and case studies. We place a strong emphasis on student support and aim to provide a learning environment that is both stimulating and academically challenging, whilst also supporting your learning. You will encounter a range of teaching methods that include but are not limited to:

  • Lectures
  • Practical classes
  • Projects and case studies
  • Group work
  • Guest lectures
  • Examinations
  • Portfolio work
  • Integrated assessments