
MEng (Hons) Mechanical Engineering
Lincoln, United Kingdom
DURATION
4 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Jan 2025
TUITION FEES
Request tuition fees
STUDY FORMAT
On-Campus
Introduction
The MEng (Hons) Mechanical Engineering degree at Lincoln aims to produce industry-ready graduates with product design and innovative sense who are highly-skilled, creative engineers able to adapt to new challenges and deliver sustainable solutions for modern society.
The curriculum aims to support students in bridging the gap between the University and professional work by developing skills that are required by industry. The programme offers condensed yet impactful modules that are designed to arm our students with knowledge, skills, and tools to maximise their opportunity to secure a great career.
Founded in collaboration with Siemens, the University of Lincoln's School of Engineering has a core philosophy of research-led teaching. Our innovative industrial collaborations have led to a generous programme of bursaries and workplace experience opportunities.
Strong links exist between our Mechanical and Electrical programmes, enabling our students to develop the strong cross-disciplinary focus necessary for the modern engineer, and an understanding of industry perspectives.
Placements
A sandwich option is available on this programme, providing you with the opportunity to spend a year in industry. You are encouraged to obtain placements in industry independently, however tutors may provide support and advice to those who require it during this process. While undertaking placements, you are responsible for your own travel, living, and accommodation costs.
Academic Expertise and Industry Links
Our academic team brings together a rich array of research experience, including staff with specialisms in diagnostics and prognostics, renewables, modelling of dynamic systems, nanomaterials, and applications of lasers. They secure grants for major UK and European research funders and deliver research, development, and consultancy for industrial partners, as well as being part of international research collaborations. Students have the opportunity to engage in this research through research-led teaching and project work.
Founded in collaboration with Siemens, the University of Lincoln’s School of Engineering has a core philosophy of research-led teaching. Our innovative industrial collaborations have led to a rich programme of work experience opportunities, including at Siemens Energy in Lincoln.
"This information was correct at the time of publishing (July 2023)"
Admissions
Scholarships and Funding
For eligible undergraduate students going to university for the first time, scholarships and bursaries are available to help cover costs. The University of Lincoln offers a variety of merit-based and subject-specific bursaries and scholarships.
Several scholarship options are available. Please check the University of Lincoln website for more information.
Curriculum
How You Study
The Mechanical Engineering programme utilises problem- and project-based learning. We aim to narrow the gap between employers' requirements and our graduates' skills to improve employability and help facilitate their transition from higher education to work.
The first year of the degree is designed to provide a foundation in engineering theory and practice. Students are supported in their development of important technical skills, such as computer-aided design and workshop skills. The second and third years offer a range of specialist modules. At each stage of the course, there are opportunities to practise and develop engineering skills on real-life problems through project work.
Students on the MEng course can go on to study more advanced modules and learn about project management, teamwork, and leadership, as well as completing an extended group project.
First Year
- Computing and Programming for Engineers (Core)
- Design Challenge for Engineers (Core)
- Electrical and Electronic Technology (Core)
- Engineering Mechanics (Core)
- Materials and Methods of Manufacture (Core)
- Mathematical Skills for Engineers (Core)
- Thermofluids (Core)
Second Year
- Advanced Thermofluids (Core)
- Applied Dynamics and Vibrations (Core)
- Control Systems (Core)
- Data Modelling and Simulation (Core)
- Electrical Power and Machines (Core)
- Industrial Engineering (Core)
- Innovation Project (Core)
- Solid Body Mechanics (Core)
- Engineering Year in Industry (Option)†
- Study Abroad Period: Engineering (Option)†
Third Year
- Advanced Manufacturing Processes and Systems (Core)
- Individual Project (Bachelors) (Core)
- Materials Science and Engineering (Core)
- New and Sustainable Product Development (Core)
- Combustion, Fuels and Energy (Option)†
- Computational Fluid Dynamics (Option)†
- Energy Systems and Conversion (Option)†
- Finite Element Analysis (Option)†
- Internet of Things and Smart Electronics (Option)†
- Robotics and Automation (Option)†
- Signal Processing and System Identification (Option)†
- Smart Energy Systems (Option)†
- State-Space Control (Option)†.
Master's Level
- Group Project (Core)
- Managing Projects (Core)
- Laser Materials Processing (Option)†
- Sensors, Actuators and Controllers (Option)†
- Sustainable Energy and Climate Change (Option)†
- Vehicle Systems and Control (Option)†
- Vibration of Rotating Machines (Option)†
- Artificial Intelligence (Core)
- Advanced Modelling and Simulation (Option)†
† Some courses may offer optional modules. The availability of optional modules may vary from year to year and will be subject to minimum student numbers being achieved. This means that the availability of specific optional modules cannot be guaranteed. Optional module selection may also be affected by staff availability.
What You Need to Know
We want you to have all the information you need to make an informed decision on where and what you want to study. In addition to the information provided on this course page, our What You Need to Know page offers explanations on key topics including programme validation/revalidation, additional costs, contact hours, and our return to face-to-face teaching.
How You Are Assessed
Assessment on the programme is designed to measure and assess engineering technical and analytical skills as well as professional soft skills including oral and written communication, team working, long-life learning, problem-solving, project management, and planning and organisation.
In addition to traditional exams, coursework assignments are used in a number of modules where students are required to work on their own or in small groups. They are designed to enable students to develop and show their understanding of the module content. Oral presentations are often included as part of coursework to provide opportunities for developing essential communication skills.
Students are expected to complete an individual project in their third year of the degree course, providing an excellent opportunity to pull together every aspect of their development during the course.
Recorded lectures are also made available for part-time and distance based learning students. These can also be accessed by full-time students.
Accreditation
This programme is accredited by the Institution of Mechanical Engineers (IMechE). This enables students completing the programme the opportunity to register as a Chartered Engineer (CEng).
Program Outcome
How You Study
The Mechanical Engineering programe utilises problem- and project-based learning. We aim to narrow the gap between employers' requirements and our graduates' skills to improve employability and help facilitate their transition from higher education to work.
The first year of the degree is designed to provide a foundation in engineering theory and practice. Students are supported in their development of important technical skills, such as computer-aided design and workshop skills. The second and third years offer a range of specialist modules. At each stage of the course, there are opportunities to practise and develop engineering skills on real-life problems through project work.
Students on the MEng course can go on to study more advanced modules and learn about project management, teamwork, and leadership, as well as completing an extended group project.
Program Tuition Fee
Career Opportunities
Professional engineers are in demand in the UK and overseas. Graduates may pursue a variety of career paths in areas such as control systems, power and energy, and mechanical and materials engineering. The University’s strong industry links give Lincoln graduates enhanced opportunities for placements, mentoring, and recruitment, including at Siemens Energy in Lincoln. Other graduate destinations include Rolls-Royce, Qinetiq, JCB, and Jaguar Landrover.
Program Admission Requirements
Show your commitment and readiness for Grad school by taking the GRE - the most broadly accepted exam for graduate programs internationally.