Integrated Engineering (MEng)

The complexity and sophistication of modern engineering requires an increasing level of interaction between engineering disciplines which have traditionally been considered to be largely independent.

Industry is seeking engineers with a wide knowledge of fundamentals and applications in many fields rather than a specialised knowledge in one particular area.

The Integrated degree programme provides you with a broad engineering education which covers a wide range of engineering principles embracing mechanical, manufacturing, electrical and electronic engineering, information technology and computer-aided design. You will also become familiar with the role of engineering within the business environment, as particular attention is paid to economics, management and law. By choosing the MEng you will benefit from advanced learning in design and management and an appreciation of the techniques required to manage and organise a multi-disciplinary engineering design project.

Key facts

UCAS CodeH113
Duration4 Year(s)
AccreditationsEngineering Council
Energy Institute (EI)
Institution of Mechanical Engineers (IMechE)
Institution of Engineering and Technology (IET)
Typical places availableThe School typically has approx 230 places available
Typical applications receivedThe School typically receives approx 1270 applications
Scholarships and bursaries
Typical A level offerAAB A-level Mathematics is required (or equivalent)
Typical Welsh Baccalaureate offerWBQ core will be accepted in lieu of one A-level (excluding Mathematics)
Typical International Baccalaureate offer32 - 36 points, including 5 in higher level Mathematics and a Science
Other qualificationsApplications from those offering alternative qualifications are welcome. Please see detailed information about alternative entry requirements here
Please see detailed information about alternative entry requirements here.
QAA subject benchmark

QAA, Engineering Benchmark Statement, February 2015

Engineering Council, Accreditation of Higher Education Programmes: UK Standard for Professional Engineering Competence (3rd Edition), January 2014

Academic School
Admissions tutor(s)

Dr Richard Perks , Course Administrator

    The Integrated Engineering degree is a broad-based engineering degree that embraces many aspects of electrical, electronic, mechanical and manufacturing engineering. Therefore, by choosing to study Integrated Engineering, you will qualify as an engineer of the highest quality. Your broad knowledge of various aspects of engineering will ensure that you can interact with engineers from all the traditional engineering disciplines in any multidisciplinary environment.

    Integrated Engineering at Cardiff

    Both MEng and BEng programmes are offered.  Both provide the engineering institutions' necessary academic standard to satisfy educational requirements for a Chartered Engineer, with the MEng offering the fast-track route to chartered status. The degree programmes are accredited by the Institution of Mechanical Engineers, the Institution of Engineering and Technology and the Energy Institute. These interdisciplinary programmes, which draw on modules taught across the School, benefit from the 'Excellent' teaching rating achieved by the School in most of its discipline areas.

    Programme Structure

    We offer both BEng (three year) and MEng (four year) degrees in Integrated Engineering, both with the option of an industrial placement year (Sandwich option).

    Year one

    Module titleModule codeCredits
    Power EngineeringEN106510 credits
    Mechanics 2EN107610 credits
    Engineering ApplicationsEN104820 credits
    Thermofluids 1EN107410 credits
    Network AnalysisEN106410 credits
    Thermofluids 2EN107810 credits
    Engineering AnalysisEN109020 credits
    Computing 1EN104210 credits
    Mechanics 1EN107510 credits
    Communication Skills in English and Professional StudiesEN107310 credits

    Year two

    Module titleModule codeCredits
    Fluid MechanicsEN203310 credits
    Materials and ManufactureEN202510 credits
    Solid MechanicsEN200210 credits
    Control EngineeringEN205810 credits
    Computing 2EN200810 credits
    Thermodynamics and Heat TransferEN204110 credits
    Product Design and System IntegrationEN290920 credits
    DynamicsEN203210 credits
    Engineering AnalysisEN203010 credits
    Power Engineering 2EN270410 credits
    Introduction To Economics, Law, Accounting and Management ScienceEN200910 credits

    Year three

    Module titleModule codeCredits
    Materials and ManufactureEN304610 credits
    ProjectEN310030 credits
    Quality and ReliabilityEN364010 credits
    Microprocessors & Instrumentation Sys.EN350710 credits
    Business ManagementEN300410 credits
    Energy StudiesEN303610 credits
    Product DesignEN390610 credits

    Module titleModule codeCredits
    Solid MechanicsEN303710 credits
    Electrical Machines and Drives AEN370210 credits
    Fluid Power & ControlEN351310 credits
    Thermodynamics and Heat TransferEN304210 credits
    Commercialising InnovationEN300610 credits
    Waste Management and RecyclingEN340110 credits
    Robotics and Image ProcessingEN306210 credits

    Year four

    Module titleModule codeCredits
    Renewable Energy DesignEN410330 credits
    Advanced RoboticsEN406210 credits
    Management in IndustryEN400410 credits

    Module titleModule codeCredits
    Energy ManagementEN460310 credits
    Cond Monitoring, Modelling & ForecastingEN460410 credits
    ControlEN461010 credits
    Fundamentals of NanomechanicsEN463010 credits
    Artificial IntelligenceEN490210 credits
    Risk and Hazard AssessmentEN460610 credits
    Automotive DesignEN410130 credits
    Integrated Building DesignEN410230 credits
    UAV ProjectEN410530 credits
    Alternative Energy SystemsEN470510 credits
    The University is committed to providing a wide range of module options where possible, but please be aware that whilst every effort is made to offer choice this may be limited in certain circumstances. This is due to the fact that some modules have limited numbers of places available, which are allocated on a first-come, first-served basis, while others have minimum student numbers required before they will run, to ensure that an appropriate quality of education can be delivered; some modules require students to have already taken particular subjects, and others are core or required on the programme you are taking. Modules may also be limited due to timetable clashes, and although the University works to minimise disruption to choice, we advise you to seek advice from the relevant School on the module choices available.

    The Cardiff School of Engineering is an integrated School with a reputation for providing education of the highest quality. The School is renowned for its up-to-date teaching and research facilities and its strong links with industry. The School's graduate students are in great demand from industry and the public sector across the UK, and internationally.

    No matter which degree programme you choose, you will be taught the fundamental aspects of engineering through a combination of lectures and tutorials, supplemented by the practical aspects of engineering which are taught through laboratory and project-based work. Our teaching is organised into modules and you will take twelve modules per year, normally six in each of the two semesters. Each semester consists of eleven teaching weeks, one revision week and an examination period. Staff are always happy to clarify any material or answer any of your questions and help with specific aspects of a module can be directly obtained from your lecturers.

    Your progress in each module is usually assessed mid-way through each semester (through a one hour test) to give you feedback on your progress, then finally at the end of the appropriate semester. Assessment is undertaken using a variety of different methods including formal written examinations, case studies, assignments and project work.

    Your first year of academic life will expose you to a broad range of new and exciting experiences. To help you through this transitional period in your life, upon starting your studies at Cardiff, you will be assigned a personal tutor who is a member of the academic staff associated with your degree programme. Your tutor will be there to advise you on academic, non-academic and personal matters in a confidential and informal manner as and when you need some guidance. We aim to help you overcome any problem, however big or small, as smoothly and quickly as possible.

    Our graduates occupy key positions in leading firms where engineering skills are required, such as Halcrow, Atkins, BP, BAe Sytems, RWE npower, Mott McDonald, Network Rail, Rolls Royce, Ford, Tata Steel, Nokia, Bosch, and beyond. Our graduates have also moved on to work within local governments, UK and international utility companies and organisations such as Climate Energy and GlaxoSmithKline.

    If you are seeking to formally enhance your degree, choosing the Year in Industry programme at Cardiff is a good option as we have an official partnership with the City and Guilds of London Institute which will enable you to achieve the Senior Award of Licentiateship after successfully completing your placement. This is a professional qualification which rewards work related competence and expertise and is widely recognised by employers. If you hold the award you are entitled to use the letters LCGI after your name.

    Being at the forefront of engineering research means that Cardiff has excellent links with industry and the policy of the school is scrutinised by a panel of top industrialists on a regular basis. In addition, numerous links have been developed with companies, both in the UK and overseas, through our Year in Industry programmes and through consultancy work by staff. This involves advising on matters such as energy policy, bridge design, magnetic materials and semiconductor devices. You can be confident therefore that Cardiff's School of Engineering has an ethos which is entirely focused on providing you with the knowledge, experience and connections to succeed in your chosen career.


    • Civil engineer
    • Electrical engineer
    • Graduate mechanical engineer


    4 Year(s)

    Next intake

    September 2016

    Places available

    Typical places available

    The School admits c350 students each year to its undergraduate degree programmes.

    Applications received

    Typical applications received



    QAA subject benchmark

    QAA subject benchmark

    QAA, Engineering Benchmark Statement, February 2015

    Engineering Council, Accreditation of Higher Education Programmes: UK Standard for Professional Engineering Competence (3rd Edition), January 2014

    What are the aims of this Programme?

    The aims of the Programme are to:

    • produce engineering graduates, educated in the application of a broad spectrum of fundamental science and engineering principles to real-life technological, financial, regulatory, managerial and ethical problems encountered in the engineering profession, and to produce graduates who are equipped to be key professional players in the wider industry, the professions, and public service;
    • produce graduates who are numerate, literate, analytical, articulate, practical, adaptive, creative, confident and inquisitive;
    • continue to attract motivated and highly qualified students, irrespective of background; and
    • promote the advancement of scholarship to meet the strategic needs of the local region and the wider nation.

    More specifically, it aims to:

    • provide students with sound knowledge and skills, confidence to solve multidisciplinary problems in the engineering context, ability to exercise original thought, have good professional judgment and take responsibility for the direction of important tasks;
    • provide opportunities for students to be creative and innovative in problem-solving while maintaining a proper balance of risk management ;
    • produce graduates that are proficient in oral and visual communication with other professionals and lay people ;
    • produce graduates adept at working in, and leading, teams of interdisciplinary professionals ;
    • produce graduates with sound understanding of problem-solving in a business context to achieve an economic solution ;
    • encourage students to progressively take ownership of the direction of their learning so that they may develop as independent life-long learners; and
    • form a prevailing ethos of professional, social and ethical responsibility within the learning environment and in the students;
    • widen regional participation in Higher Education;
    • provide opportunities for structured training in an extended industrial placements to gain experience and increase appreciation of application of engineering principles in a commercial setting.

    What is expected of me?

    Students should attend lectures whenever possible, and are expected to attend all timetabled laboratory sessions, as notified. While a 10-credit module represents 100 hours of study in total, typically this will involve 2–3 hours of contact time with teaching staff per week. The remaining hours are intended to be for private study, coursework, example sheets, revision and assessment. Therefore all students are expected to spend a significant amount of time (typically 20 hours each week) studying independently. Students must keep their personal tutor and the Teaching Office informed of any circumstances or illnesses that might affect their capacity to attend teaching or undertake assessment.

    Students are also expected to abide by the “Student Charter”,

    How is this Programme Structured?

    This programme is offered in full time mode for 4 years. A choice of modules is available during study Years 3 and 4. The award of the degree is conditional on successful progression in all years. Details of the programme structures and requirements, courses and awards are available in the Student Handbook and on the Cardiff School of Engineering webpages. Teaching is organised into modules (of usual value 10 or 20 credits), which you will take to the value of 120 credits, with 60 credits in each of the two semesters.  A 10 credit module represents 100 hours of programmed study, and typically involves 24-36 hours of contact time with teaching staff, depending on the type of module.

    Will I need any specific equipment to study this Programme?

    What the student should provide:
    No specific equipment required.

    What the University will provide:
    Cardiff University will make available resources such as computers and associated software, laboratory equipment (including any safety equipment), and any required learning resources (both electronic and in hard copies).

    What skills will I practise and develop?

    Skills developed are detailed in individual Module Descriptions.

    How will I be taught?

    A wide range of teaching styles will be used to deliver the diverse material forming the curriculum of the programme. Students will attend lectures, participate in examples classes, and carry out extensive laboratory, IT and practical work. The taught modules in the first two years are compulsory, but options are available in Years 3 and 4. All students must complete a 30-credit individual project in Year 3, for which they are allocated a supervisor from among the teaching staff. All students must also complete two 30 credit group projects in Year 4.There are many opportunities for interactions with potential employers. The medium of instruction in all components of the programme is English.

    How will I be assessed?


    Achievement of learning outcomes in the majority of modules is assessed by a combination of class tests and coursework assignments, plus University examinations set in January or May. Examinations count for 60%–70% of all assessment throughout the programme, depending on the options chosen. The remainder is largely project work and larger pieces of coursework, plus performance in laboratories. The opportunity to test knowledge and understanding will be provided throughout the semester via class tests in years 1 and 2, plus feedback on written assessments. Occasionally, peer assessment of an individual’s contribution to a group may be used, and students may also receive oral feedback on presentations and contributions to group activities. The final degree classification will depend upon performance in Years 2, 3 and 4 of the programme.


    Students are provided feedback in different ways in different modules but principally, feedback is given via returned of marked coursework, and also verbally in classes like design and project work.

    How will I be supported?

    Students will be allocated a personal tutor to assist them with both academic progress and pastoral support when required. The personal tutor will see students weekly in the Autumn semester of Year 1, and as required thereafter. For the 30-credit project in Year 3, students will be allocated a supervisor in the broad area of research specialism, whom they should expect to meet with regularly. In addition to the broad range of support services provided centrally by Cardiff University, students with specific needs will be supported as required.

    Learning Central, the Cardiff University virtual learning environment, will be used extensively to communicate with students, support lectures and provide general programme materials such as reading lists and module descriptions. It may also be used to provide self-testing assessment and give feedback.

    The School also maintains a Personal Development Plan programme through all years of the degree, to give students an opportunity to reflect on their learning, and to assist students with preparation for their professional career. The School and the University provide many forms of support for future career development and opportunities.

    What are the Learning Outcomes of this Programme?

    The Programme Learning outcomes are those as provided by the Engineering Council’s “Accreditation of Higher Education Programmes: UK Standard for Professional Engineering Competence” which are reproduced below and also by the requirements of the professional engineering institutions. Details of specific learning outcomes for modules on this course can be viewed in Learning Central.

    Science and Mathematics

    · Comprehensive knowledge and understanding of scientific principles and methodology necessary to underpin their education in their engineering discipline, and an understanding and know-how of the scientific principles of related disciplines, to enable appreciation of the scientific and engineering context, and to support their understanding of relevant historical, current and future developments and technologies.

    · Knowledge and understanding of mathematical and statistical methods necessary to underpin their education in their engineering discipline and to enable them to apply a range of mathematical and statistical methods, tools and notations proficiently and critically in the analysis and solution of engineering problems.

    · Ability to apply and integrate knowledge and understanding of other engineering disciplines to support study of their own engineering discipline and the ability to evaluate them critically and to apply them effectively.

    • Awareness of developing technologies related to own specialisation.
    • Comprehensive knowledge and understanding of mathematical and computational models relevant to the engineering discipline, and an appreciation of their limitations.
    • Understanding of concepts from a range of areas including some outside engineering, and the ability to evaluate them critically and to apply them effectively in engineering projects.

    Engineering analysis

    · Understanding of engineering principles and the ability to apply them to critically analyse key engineering processes.

    · Ability to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques.

    • Ability to apply quantitative and computational methods, using alternative approaches and understanding their limitations, in order to solve engineering problems and to implement appropriate action.

    · Understanding of, and the ability to apply, an integrated or systems approach to solving complex engineering problems.

    • Ability to use fundamental knowledge to investigate new and emerging technologies.
    • Ability to extract and evaluate pertinent data and to apply engineering analysis techniques in the solution of unfamiliar problems.


    · Understand and evaluate business, customer and user needs, including considerations such as the wider engineering context, public perception and aesthetics.

    · Investigate and define the problem, identifying any constraints including environmental and sustainability limitations; ethical, health, safety, security and risk issues; intellectual property; codes of practice and standards.

    · Work with information that may be incomplete or uncertain, quantify the effect of this on the design and, where appropriate, use theory or experimental research to mitigate deficiencies.

    · Apply advanced problem-solving skills, technical knowledge and understanding to establish rigorous and creative solutions that are fit for purpose for all aspects of the problem including production, operation, maintenance and disposal.

    · Plan and manage the design process, including cost drivers, and evaluate outcomes.

    · Communicate their work to technical and non-technical audiences.

    • Demonstrate wide knowledge and comprehensive understanding of design processes and methodologies and the ability to apply and adapt them in unfamiliar situations.
    • Demonstrate the ability to generate an innovative design for products, systems, components or processes to fulfil new needs.

    Economic, legal, social, ethical and environmental context

    · Understanding of the need for a high level of professional and ethical conduct in engineering, and a knowledge of professional codes of conduct and how ethical dilemmas can arise.

    · Knowledge and understanding of the commercial, economic and social context of engineering processes.

    · Knowledge and understanding of management techniques, including project and change management that may be used to achieve engineering objectives, their limitations and how they may be applied appropriately.

    · Understanding of the requirement for engineering activities to promote sustainable development and ability to apply quantitative techniques where appropriate.

    · awareness of relevant legal requirements governing engineering activities, including personnel, health & safety, contracts, intellectual property rights, product safety and liability issues, and an awareness that these may differ internationally.

    · Knowledge and understanding of risk issues, including health & safety, environmental and commercial risk, risk assessment and risk management techniques and an ability to evaluate commercial risk.

    • Understanding of the key drivers for business success, including innovation, calculated commercial risks and customer satisfaction.

    Engineering practice

    · Understanding of contexts in which engineering knowledge can be applied (e.g. operations and management, application and development of technology, etc.).

    · Knowledge of characteristics of particular equipment, processes, or products, with extensive knowledge and understanding of a wide range of engineering materials and components.

    · Ability to apply relevant practical and laboratory skills.

    · Understanding of the use of technical literature and other information sources.

    · Knowledge of relevant legal and contractual issues.

    · Ability to use appropriate codes of practice and industry standards.

    · Understanding of appropriate codes of practice and industry standards.

    · Awareness of quality issues and their application to continuous improvement.

    · Ability to work with technical uncertainty.

    • A thorough understanding of current practice and its limitations, and some appreciation of likely new developments.
    • Ability to apply engineering techniques taking account of a range of commercial and industrial constraints.

    · Understanding of different roles within an engineering team, and the ability to exercise initiative and personal responsibility, which may be as a team member or leader.

    General skills

    · Apply skills in problem solving, communication, working with others, information retrieval and the effective use of general IT facilities.

    · Plan self-learning and improve performance, as the foundation for lifelong learning/CPD.

    · Plan, carry out, monitor and adjust a personal programme of work on an on-going basis.

    · Exercise initiative and personal responsibility, which may be as a team member or leader.


    Other information

    The distinctive features of the programme include:

    • The opportunity for students to learn in a research-led teaching institution serviced by staff in one of the highest ranked university units in the 2014 Research Excellence Framework (REF). Staff in E&E formed Cardiff’s General Engineering REF unit, with 97% of the research being deemed “internally excellent or internationally leading”, and top in the UK for Research Impact in terms of our research’s reach and significance. This is the research environment in which students on this programme undertake project work.
    • The participation of research-active staff in programme design and delivery, many of whom are Chartered Engineers with experience of working in industry.
    • The variety of advanced level modules on offer.
    • The emphasis on progression towards independent learning in preparation for lifelong learning.
    • The emphasis on acquisition of practical skills through industrially based final year group projects.
    • Full accreditation for Membership of the Institution of Engineering Technology, the Institution of Mechanical Engineers and the Institute of Energy.
    • External scholarships available from the UK Power Academy and UK Electronic Skills Foundation UKESF (Cardiff is a member of both schemes)
    • An open and engaging culture between students and staff, with student representatives as full members on some School committees.
    • Comprehensive and anonymous student evaluation of all aspects of the programme (both on academic modules and on other aspects of the School).

    Admissions tutors

    Dr Richard Perks , Course Administrator

      Key Information Sets (KIS) make it easy for prospective students to compare information about full or part time undergraduate courses, and are available on the Unistats website.