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Automotive Engineering MSc

2025-26 (also available for 2024-25)

This course is eligible for Master's loan funding. Find out more.

Start date

22 September 2025

12 January 2026

Duration

1 year full-time

Places available (subject to change)

30

About the course

Reasons to study

  1. Professional Links – This course is accredited by the Institution of Mechanical Engineers (IMechE). This means it goes towards helping you achieve Chartered Engineer status (CEng).
  2. Knowledge – Learn from our team of professional engineers and technicians with experience in the engineering management field.
  3. Boosted Career Prospects - 97% of the University’s postgraduate students go on to work and/or further study within fifteen months of graduating. (HESA Graduate Outcomes 2021/22, UK domiciled, other activities excluded).

Looking to start or develop your career in the UK automotive industry? An MSc in Automotive Engineering from The University of Huddersfield can prepare you for that.

Our advanced course is designed to satisfy the needs of graduate mechanical engineers or those who wish to redirect their careers towards automotive engineering and automotive system design.

The main aims of this course are to:

  • Extend current knowledge towards their application within aspects of automotive science and the design of a modern land vehicle sub-system
  • Develop social awareness and responsibilities of engineers in society
  • Provide the opportunity to develop research competence through an advanced directed research project
  • Provide the opportunity to apply high-level analytical software towards the design and packaging of complex assemblies.

Why study Automotive Engineering at Huddersfield?

The UK automotive industry is a thriving and highly competitive sector requiring professionals with a sound understanding of engineering principles. Our Automotive Engineering MSc enables you to deepen your knowledge and skills as a professional in this industry.

The University is nestled within the heart of Huddersfield, a warm and welcoming town, known for its friendly atmosphere and diverse community. When you’re not studying, you can enjoy an array of exciting activities and experiences. From cultural events and charming cafes to stunning scenery and fantastic transport links, there’s plenty to do in and around the town centre.

Course detail

Advanced Automotive Chassis Systems

This module will enable you to understand the operating principles of a wide range of automotive chassis systems. The basic elements of a variety of braking, steering, and suspension systems are studied in depth to evaluate their kinematic and dynamic characteristics. Their design features are investigated to establish how they currently satisfy the appropriate automotive regulations. The influence of X-by-wire regarding vehicle development and future legislation is considered with regard to safety, ethical issues and advanced vehicle control. Wheel and tyre design are studied to establish features such as slip characteristics, construction, and deformation during steady state and transient cornering. The normal operating forces at the tyre/road interface are considered to establish the safe operating boundaries of a vehicle. Traditional and modern suspension systems are studied for commercial vehicles, high volume production cars and high performance cars. Comfort and ride characteristics are related to wheel loads and differing road features.

Advanced Static Analysis

This module aims to extend your knowledge of the scientific principles used in more advanced static analysis of mechanical components and systems and to understand the role that mathematical and computer based modelling plays in this type of analysis. The module will allow you to gain experience in the use of commercial analysis software to solve non-linear and thermal structural problems. This experience will be gained on leading commercial software packages through the solution of a number of graded problems..

Advanced Dynamic Analysis

The module uses selected topics to give you an advanced understanding of the theory and analytical tools that can be applied to dynamic mechanical systems. You will develop the ability to develop models and analyse complex systems using commercial software packages and to specify appropriate optimisation and mitigation techniques. The module further provides, through theory and practical examples, the means to quantify and solve realistic problems. Laboratory testing of a practical system will be used to provide data to validate models. Fundamentals of acoustics are covered including sound sources and propagation and mitigation of noise. Measurement techniques form part of the investigative nature of the subject and general empirical methodology. Mathematical analysis packages are used extensively throughout the module.

Professional Development and Research Methods

This module will develop your professional skills such as team working, organisation and leadership. You will also get the opportunity to explore a range of research methods and understand how they can be used in your own area of interest. There will be the opportunity to learn about professional registration in Engineering and how you can begin on that journey. You will learn through self directed study of online material supported by interactive seminars and workshops, this will give you ownership of your own learning and help you develop skills for life long learning and continued professional development. The assessment for this module will enable you to put these skills into practice in coursework which challenges your professional development and research skills whilst focussing on broadening your understanding of contemporary challenges in the sector.

Individual Project

The project provides you with the opportunity required within an MSc to undertake a major programme of advanced independent work. Where possible your project is carried out in collaboration with an industrial company and takes place at the company.

Quality Systems and Measurement

This module will build upon your previously acquired understanding of Operations Management, Quality Assurance and Control, together with the statistical techniques employed in probability theory. During the course of this module, you will develop further expertise necessary to implement and operate Quality Systems, Maintenance Regimes and Reliability Trials and support New Product Introductions. You will explore the role of Quality Systems in the introduction of New Products. You will also learn about the importance of ensuring that products are problem-free in their early life to become established on the market.

Modern Vehicle Systems

The module is structured to give you an appreciation of the issues encompassing the move to lower emission road transportation, an understanding of the technical and economic aspects of new vehicle drive-train technologies and the ability to make informed design decisions associated with the integration of more-electric systems for road vehicle traction and control. You will also learn about the major elements that make up a vehicle power-train and consider the interconnection and operational interaction of the components.

Project and Finance Management

This module aims to develop your understanding of the strategic aspects of programme and project management and its role in adding competitive advantage to an organisation. The module enables you to gain a firm grounding in the principles, processes, tools and techniques that underpin programme and project management. It also aids you to develop a systematic understanding of the purposes and uses of financial information, together with the ability to use quantitative skills to improve performance management and decision making within an organisation. Emphasis is placed upon the need for competence in project planning and control. Team-working, communication and risk management skills are developed by means of group activity. Extensive use is made of project management and simulation software.

Advanced Thermofluids

Fluid dynamic forces acting on a fluid handling system affect the performance effectiveness of the system. This module considers an advanced study of fluid flows relevant to industrial fluid handling systems such as vehicles, turbomachines and pipeline systems. Modern vehicles will be studied to highlight the subtle design features being employed to reduce drag, provide deliberate vortices, or create a predictable down-force on the vehicles. The design features related to turbomachines and the pipelines are also discussed in detail. Additionally, the module considers an optimised design for various systems considered including engine cooling systems, in-car air conditioning, turbo-machines and piping systems. We will introduce you to an appropriate commercial computational fluid dynamics (CFD) software package and its use for design of an optimised system.

Entry requirements

Entry requirements for this course are normally:

  • An Honours degree (2:2 or above) in Mechanical Engineering, Manufacturing Engineering, Engineering Systems or a closely related science subject area or an equivalent professional qualification.

You are encouraged to apply if you have other qualifications and/or experience and can demonstrate that you are equipped with knowledge and skills equivalent to Honours degree level.

If your first language is not English, you will need to meet the minimum requirements of an English Language qualification. The minimum for IELTS is 6.0 overall with no element lower than 5.5, or equivalent. Read more about the University’s entry requirements for students outside of the UK on our International Entry Requirements page.

Why study with us?


Meet our Head of the Department of Engineering, Dr Leigh Fleming, and learn more about Postgraduate Study at the University of Huddersfield

Enhance your career


Previous graduates from courses in this subject area have gone on to work in a variety of roles such as program quality engineer, mechanical design engineer, research engineer and vehicle durability engineer in organisations including Faurecia, Applied Photonics Ltd, Jaguar Land Rover and Millbrook Proving Ground Ltd.**

*  of the University’s postgraduate students go on to work and/or further study within fifteen months of graduating. (HESA Graduate Outcomes 2021/22, UK domiciled, other activities excluded).

** Source: LinkedIn

97%*

Student support

At the University of Huddersfield, you'll find support networks and services to help you get ahead in your studies and social life. Whether you study at undergraduate or postgraduate level, you'll soon discover that you're never far away from our dedicated staff and resources to help you to navigate through your personal student journey. Find out more about all our support services.

Important information

Although we always try and ensure we deliver our courses as described, sometimes we may have to make changes for the following reasons

When you enrol as a student of the University, your study and time with us will be governed by our terms and conditions, Handbook of Regulations and associated policies. It is important that you familiarise yourself with these as you will be asked to agree to them when you join us as a student. You will find a guide to the key terms here, along with the Student Protection Plan.

Although we always try and ensure we deliver our courses as described, sometimes we may have to make changes for the following reasons

Changes to a course you have applied for but are not yet enrolled on

If we propose to make a major change to a course that you are holding an offer for, then we will tell you as soon as possible so that you can decide whether to withdraw your application prior to enrolment. We may occasionally have to withdraw a course you have applied for or combine your programme with another programme if we consider this reasonably necessary to ensure a good student experience, for example if there are not enough applicants. Where this is the case we will notify you as soon as reasonably possible and we will discuss with you other suitable courses we can transfer your application to. If you do not wish to transfer to another course with us, you may cancel your application and we will refund you any deposits or fees you have paid to us.

Changes to your course after you enrol as a student

Changes to option modules:

Where your course allows you to choose modules from a range of options, we will review these each year and change them to reflect the expertise of our staff, current trends in research and as a result of student feedback or demand for certain modules. We will always ensure that you have an equivalent range of options to that advertised for the course. We will let you know in good time the options available for you to choose for the following year.

Major changes:

We will only make major changes to non-optional modules on a course if it is necessary for us to do so and provided such changes are reasonable. A major change is a change that substantially changes the outcomes, or a significant part of your course, such as the nature of the award or a substantial change to module content, teaching days (part time provision), type of delivery or assessment of the core curriculum. For example, it may be necessary to make a major change to reflect changes in the law or the requirements of the University’s regulators or a commissioning or accrediting body. We may also make changes to improve the course in response to student, examiners’ or other course evaluators’ feedback or to ensure you are being taught current best practice. Major changes may also be necessary because of circumstances outside our reasonable control, such as a key member of staff leaving the University or being unable to teach, where they have a particular specialism that can’t be adequately covered by other members of staff; or due to damage or interruption to buildings, facilities or equipment, or pandemics.

Major changes would usually be made with effect from the next academic year, but may happen sooner in an emergency. We will notify you as soon as possible should we need to make a major change and will carry out suitable consultation. If you reasonably believe that the proposed change will cause you detriment or hardship we will, if appropriate, work with you to try to reduce the adverse effect on you or find an appropriate solution. Where an appropriate solution cannot be found and you contact us in writing before the change takes effect you can cancel your registration and withdraw from the University without liability to the University for future tuition fees. We will provide reasonable support to assist you with transferring to another university if you wish to do so.

In exceptional circumstances, we may, for reasons outside of our control, be forced to discontinue or suspend your course. Where this is the case, a formal exit strategy will be followed in accordance with the student protection plan.

The Office for Students (OfS) is the principal regulator for the University.

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