BEng (Hons) single honours Mechanical Engineering  2020/21

Year of entry

Mechanical engineers’ contribution to our world is all around us. From the chairs we sit on, the clothes we wear, to utilities to make our environment safe and healthy. We offer a unique learning opportunity as not only has the course been co-designed with local industry, during the course you will have the opportunity to solve problems provided by local industry. Working with your peers and other fields of engineering, you will apply the course theoretical learning to solve industry supplied work related problems, such as using Industry 4.0 technology to manufacture modular homes. You will conceive ideas to solve the problem(s), design your solution, implement your solution and test/observe your solution using the pioneering CDIO approach.

Great news!

We’re building a new £60m Science, Engineering, Technology and Health facility on our main campus in Canterbury, equipped with the latest technology and bespoke learning spaces for our engineering students. We’re planning to open Building 2 in September 2020, with building work now well underway.

Mechanical engineers make a vital contribution to a variety of industries by developing, implementing and maintaining engineering solutions that ensure products are manufactured efficiently and to customer’s quality requirements. Mechanical engineers could be involved in work to automate packaging solutions for your favourite biscuits, use energy as efficiently as possible throughout a building at every level, designing mechanical casing for fluid and electric socket fittings on HGV ensuring a male or female HGV driver can hold and plug in the socket. Mechanical engineers ensure systems meet demand, are reliable, integrated and operate smoothly. They are also responsible for many ‘hidden’ functions that keep building services fit-for-purpose. 

We are offering a unique and inclusive learning opportunity with courses that have been co-designed with local industry. Working with your peers and other fields of engineering you will typically have the opportunity to take the course theoretical learning and apply it to solve industry supplied work related/work based problems. You will conceive ideas to solve the problem(s), design your solution, implement your solution and test/observe your solution: CDIO (Conceive, Design, Implement and Observe). We are one of only a handful of universities in the UK to offer the pioneering CDIO international engineering education model and studying in this way offers you an authentic learning experience.

Throughout the degree you will be supported to develop your employability skills and job application skills to apply for placement opportunities. Placement opportunities in engineering often to lead to opening doors to great potential engineering graduate employment opportunities with for example Cussons, EDF, Delphi, Rambol, Berkeley Group, Southeast Water, etc.


You may also be interested in the following specific pathway options for Mechanical Engineering, available at MEng/BEng level:

  • MEng/BEng Mechanical Engineering (Advanced Manufacture)
  • MEng/BEng Mechanical Engineering (Building Services)
  • MEng/BEng Mechanical Engineering (Systems)

Mechanical Engineering is the broadest engineering discipline and while there are many engineers who work in a purely mechanical environment there is also a broad spectrum of engineers who work in multi-disciplinary environments

IMechE (2016)

Our Mechanical Engineering degrees have a common Year 1 (Level 4) with biomedical engineering and product design engineering degrees. You will be introduced to the fundamentals of engineering science, maths, physics and chemistry, and computer programming. You will gain hands-on learning experiences in the engineering workshops, engineering laboratories and makerspace. 

On all Mechanical Engineering degrees, you will develop your learning through active learning laboratories, engineering laboratories and the use of engineering workshops, makerspace using equipment akin to industrial practice. You will undertake small group projects, typically sourced from industry. We will also facilitate your learning to be able to:

  • Work effectively and supportively in diverse and inclusive groups
  • Communicate effectively in groups and one to one
  • Apply project management to group-work
  • Apply principles of commercial management and consideration of wider issues.

On all Mechanical Engineering degrees, at every level, you will undertake a large group project typically, where possible, sourced from industry. At each level these large group projects will provide you with the opportunity to develop your learning in engineering business, practice, and project management. 

In year 1 you will have the opportunity to develop your knowledge and understanding and some application. As you progress to year 2, you will apply your knowledge and understanding to conceive, design, build and operate a solution to a problem. In your third year, you will undertake an individual research and development project that inform the group project and help you to develop and illustrate the ability to critically analyse the application of your knowledge and understanding to solve a problem typically sourced from industry. We will continue to facilitate your learning and good practice in inclusive team working, communication, project and business management skills to the benefit of the group project.   

We also offer a number of four year integrated Masters degrees (MEng). If you are interested in this higher level degree, take a look at the following course pages:

  • MEng/BEng Mechanical Engineering (Advanced Manufacture)
  • MEng/BEng Mechanical Engineering (Building Services)
  • MEng/BEng Mechanical Engineering (Systems)

Core modules

Year 1

Professional Practical Engineering (with  Mechatronics project) (40 credits)

This module will introduce you to applying mechanical related engineering, engineering evaluation, concept generation, design, prototype and testing to a real problem typically sourced from industry and therefore contributing to local industry.

Mathematics, Computing and Physics for Mechanical Engineers (20 credits)

Develop your confidence in applying the fundamental science (laws of physics), mathematics and statistics principles, and computing skills in context to engineering, ensuring you have the mathematical and digital skills for your engineering ambitions.

Introduction to Engineering Design (20 credits)

You will learn through practical experience of creating and translating engineering drawings. You will practice by hand and on a computer in a group design project, developing similar habits and minds as commercial engineers.

Introduction to Elec/mechanical Systems  and Practice (20 credits)

You will gain experience of electronic, electrical and mechanical principles, methods and practice used in commercial engineering components. You will also develop engineering practical workshop skills to manufacture and fabricate engineering products.

Introduction to Material Engineering Characteristics & Manufacture (20 credits)

This module introduces you to materials used in engineering, specifically metals, plastics, ceramics and composites and material mechanical properties to enable you to select appropriate materials for future products or tasks.

Year 2

Engineering Product Lifecycle (40 credits)

You will gain experience of developing products in context to product life-cycle from raw materials to end of life, and take into consideration the wider social, environmental, commercial and financial issues and your role as an engineer.

Computer Aided Engineering and Design (20 credits)

You will learn Computer Aided Design (CAD) tools and design processes for designing, sizing and developing products and parts akin to a commercial engineer.

Dynamics of Solid Mechanics and Materials (20 credits)

You will strengthen your knowledge and understanding of materials, solid mechanics and dynamics applied to material selection like an engineer.

Dynamics of Fluid and Thermal Systems (20 credits)

You will develop your knowledge and understanding of thermodynamics and fluid mechanics as applied to mechanical engineering type of applications, like district heating system.

Control, Instrumentation, and Communication Systems in an Industrial Environment (20 credits)

You will gain technology insights and applications of communication, control and instrumentation for an industrial environment, for example oven temperatures, automated pickers.

Year 3

Professional Mechanical Engineering Project (40 credits)

You will gain experience of working individually and as part of a team to design and develop a solution to a complex mechanical engineering problem giving you a real sense of the work an engineer in industry would do.

FEA for mechanics and materials (20 credits)

You will apply, critically analyse and interpret the fundamental principles of advanced stress analysis and computational mechanical dynamics finite element analysis of products to evaluate if products in principle are fit for purpose, prior to prototyping.

CFD for Thermal and Fluid dynamic modelling (20 credits)

You will learn to model and analyse industrial fluid flow and heat transfer systems like a biofuel plant. 

Material and Mechanical Methods of Test Analysis (20 credits)

You will learn testing methods to determine and analyse mechanical and material behaviour, end of life, process limitation, diagnosis of material and mechanical failure.    

Systems Design and Engineering Analysis (20 credits)

You will  to learn to design creative, considered, sustainable, ethical, economical, inclusive complex engineering components, for example emulsifier cream filling station for biodegradable tube packaging.

Mechanical engineers are sought after throughout the UK, and there are good prospects for career longevity.  There are many opportunities to practice as mechanical engineer including:

  • Design, implement and maintain wind turbine installations, within multi-disciplinary teams, across the world;
  • Design, implement and maintain automated luggage check-in systems at airports;
  • Creating efficient ovens made from locally sourced materials for women co-operatives in countries recovering from the impact of war;
  • Designing a seat belt mechanism on child car seats that keep a child safe and reduce injuries;
  • Designing for manufacture domestic lifts for installation in homes for elderly and disabled.

Alternative Career Opportunities for all fields of Mechanical Engineers

Career opportunities extend beyond the mechanical engineering sector, they can include the following:

  • Financial sector: mechanical engineers are highly sought after for their data processing and analytical talents for industry audits, accountancy and consultancy
  • Management consultancy sector: mechanical engineers are welcomed for their numeracy and ability to write technical reports, analytical skills, and awareness of wide ranging technology and processes
  • Legal sector: mechanical engineers are employed for technical reviewing, advising, and approving patents and advising on business mergers and acquisitions of other technology business.

Please note that some career paths are subject to further academic study and qualifications may require industrial sponsorship or be dependent on the employer and the economic or sector demand.

The BEng degree is for you if you would prefer to design, develop, implement and/or maintain solutions using existing technological solutions. 

We also offer MEng degrees for those who would like to become leaders/managers and tackle complex problems, research and develop ideas for new products and the systems used to make them, to produce outstanding solutions.


Tuition Fees for 2020/21 have not yet been finalised. Course webpages will be updated with Tuition Fee information once these have been agreed.

Additional course costs

Although we aim to minimise any additional costs to students over and above the course tuition fee, there will be some additional costs which students are expected to meet.

Costs applicable to all students

Text books Own purchase text books
Travel to other sites Where travel to other sites is required, this will be payable by the student
Library Fees and Fines Where students fail to return loaned items within the required time they will be responsible for the cost of any Library Fees and Fines applicable
Printing & Photocopying The cost of printing and photocopying undertaken by students to support their individual learning are payable by the student
Graduation ceremonies It is free for the student to attend the ceremony itself. Guest tickets and robe hire / photography are additional costs payable by the student

Course specific costs


Additional costs include travel to and from Canterbury to Kent Science Park, Sittingbourne or Discovery Park, Maidstone or CCCU Medway campus as when required for learning.

Also possible opportunities to visit Industrial facilities on the Isle of Sheppey, Medway, Maidstone, Ashford and Discovery Park, Maidstone and partner institutions in Europe.

General principle policy

The University’s general principles policy for additional course fees are set out here

CategoryIncluded in the tuition feeAdditional cost to student
Field trips (including trips abroad and trips to museums, theatres, workshops etc) No, if the trip contributes to the course as an optional module. Yes if the trip is optional.
Travel and accommodation costs for placements  No

Travel and accommodation costs for professional placements within the Education and Health & Wellbeing Faculties.

Travel and accommodation costs for other work placements. 
Text books No Own purchase text books.
DBS / Health checks No Yes
Professional Body registration No Yes
Travel to other sites (e.g. travel to swimming pool for lessons) No Yes
Clothing / Kit Yes, where the clothing / kit is essential for Health & Safety reasons. Yes, where the clothing is kept by the student and not essential for health and safety reasons.
Learning materials Essential learning materials (excluding text books) in connection with the course. Additional materials beyond the standard provision essential for the course or where the costs are determined by the student’s area of interest and the outputs are retained by the student.
Library fees and fines No Yes
Printing and photocopying No Yes
Social events No, unless the event forms an essential part of the course. Yes, unless the event forms an essential part of the course.
Graduation ceremonies It is free for the student to attend the ceremony itself. Guest tickets and robe hire/ photography are additional costs payable by the student.

The contact time per module is typically a blend of lectures, laboratories and tutorials:

  • Year 1 60hrs
  • Year 2 50hrs
  • Year 3 40hrs

Typical contact time per week:

  • Year 1 15hrs
  • Year 2 12.5hrs
  • Year 3 10hrs

The modules are led by our engineering academic team consisting of lecturers, senior lecturers, principal lecturers, and laboratory learning will be further supported by Senior and Junior technicians and Postgraduate demonstrators.

In addition, in each academic year you will complete a team CDIO project (typically sourced from industry) in a 40 credit module. These large group projects provide you with the opportunity to reflect upon your knowledge and understanding in context to a real world scenario and develop your confidence in your mechanical and product engineering understanding and knowledge. We will also facilitate your learning to be able to:

  • Work effectively and supportively in diverse and inclusive groups
  • Communicate effectively in groups and one-to-ones
  • Apply project management to group-work
  • Apply principles of commercial management and solutions considerations
  • Develop effective communication with professionals from other disciplines, especially clinicians
  • Contribute to industry through your solutions
  • Provide tangible results for your portfolio of evidence for future employment.

Additional drop-in academic and peer learning mentoring sessions will be typically timetabled and you will be encouraged to make use of and support these sessions, to develop your learning. They are also an opportunity to apply your learning on new unfamiliar problems with the academics. As at other institutions these sessions have supported students to progress in their studies and provided valuable evidence for employment.  

Each 20 credits of a course of study, requires 200hrs of input over the academic year. This includes class contact time in lectures, tutorials, workshops, laboratory work, module preparation, module learning contextualisation, assessment research, development and submission, and examination revision.

All academic year consist of a mix of modules that are assessed by coursework only, to modules that are assessed by examination and coursework.  Examinations may be open-book or closed book exams. Coursework may include, Engineering log book, Technical drawings, Wiki pages, blogs, pitches to industry, posters, leaflets, engineering manual, etc.

Years 1-3 (Levels 4-6) each consist of 4 modules that are 20 credits each and 1 module that is 40 credits.

The 40 credits modules will provide you with the opportunity to work on a substantial group CDIO project typically sourced from industry. These projects will provide you with the opportunity to build your technical skills, as well as your professional practice skills. The pioneering CDIO approach is being designed to enable you to develop your creative skills in order to find solutions based on engineering science, principles and provide practical benefits to provide mechanical engineering solutions for transport to power generation industry.  The industry sourced projects enable you in a group to undertake research and innovate and could have the potential to influence industry and the wider mechanical engineering community.

The Level 6 Professional Engineering Biomedical Project module will in particular entail group and individual project work. The overall group project will be typically sourced from industry, and will require a number of individual projects to support a solution to the overall group project. Each individual project will entail a dissertation assessment. Each group will be led and managed by a Level 7 MEng student, providing peer and cross-fertilisation of learning.  

The difference in learning between MEng and BEng degrees in accordance to the accrediting engineering council, AHEP 3.0, is that:

  • On an MEng degree you will need to demonstrate leadership, management, tackling complex problems, innovation and critical analysis in the application of your knowledge and understanding of engineering.
  • On a BEng degree you will need to demonstrate critical analysis in the application of your knowledge and understanding of engineering.

Please note: progression from BEng to the MEng is an optional possibility at the end of Year 2 (Level 5) if you meet the Integrated Master’s Framework criteria for progression to the Integrated Masters programme.

In addition, MEng Mechanical Engineering students, need to meet Integrated Master’s Framework criteria for continued progression on an Integrated Masters in order to remain on the MEng after Level 5 (Year 2). 

We are working towards professional accreditation of our engineering courses. Accredited courses are delivered to a UK recognised standard. We are consulting the accrediting bodies, IMechE, in designing our courses. This is to keep us on track for accreditation. We hope to receive accreditation by 2022. If we receive accreditation, it will apply to these courses. At present these courses do not have professional accreditation.

In 2020, we will open a major new facility for science, engineering, health and medicine, part of our £150m vision to transform our Canterbury Campus. The new building will be the main base for our Kent and Medway Engineering, Design, Growth and Enterprise (EDGE) Hub, with specialist centres across the region located alongside Engineering and Technology businesses.


Our main campus in Canterbury has city centre facilities on its doorstep and, of course, you will benefit from all the new building has to offer.

This degree has been co-designed with engineering professionals and input from manufacturing, small and medium Enterprise (SME) employers of engineers, power generation, and building services/construction industries, who recruit and employ mechanical engineers. This helps to ensure that our mechanical engineering graduates meet employer needs and expectations in terms of the technical and employability skills relevant for these industries.


Full-time study

Apply via UCAS

Part-time study

Apply directly to us


Full-time study

Need some help?


For advice on completing your application please contact the Admissions Enquiry Team:

Email: admissions@canterbury.ac.uk
Tel:+44 (0)1227 782900


Contact our International Team

Fact file

UCAS course code

  • H145BEng Mechanical Engineering

UCAS institution code

  • C10


  • 3 years full-time (or 4 years with industry placement)


  • September 2020

Entry requirements



Last edited 14/08/2019 09:35:00

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Last edited: 14/08/2019 09:35:00