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Masters Degrees (Chartered Engineer)

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Engineering is constantly changing, and graduates often need to deepen their technical skills and understanding. This course is especially relevant for mechanical and manufacturing engineers and technicians wishing to broaden their industrial and managerial skills. Read more

Engineering is constantly changing, and graduates often need to deepen their technical skills and understanding.

This course is especially relevant for mechanical and manufacturing engineers and technicians wishing to broaden their industrial and managerial skills. It is ideal for continuing professional development and updating technical skills.

You study eight taught modules drawn from a wide choice of technical and management modules. This gives you advanced tuition in areas of engineering tailored to your career needs such as design, manufacturing, materials, networking or electronics and telecommunications.

We emphasise applying knowledge to relevant workplace skills in areas such as

  • design, manufacture, electronics, telecommunications and information technology, networking and materials
  • core management disciplines of quality, finance and marketing and others

The international product development module involves working in multidisciplinary teams to design and develop a product in the global market.

This flexible course helps you to develop your career based your needs, and helps you on your path towards Chartered Engineer status.

Professional recognition

This course is accredited by the Institute of Materials, Minerals and Mining (IOM3), on behalf of the Engineering Council, for the purposes of partly meeting the academic requirement for registration as a Chartered Engineer; graduates who have a BEng (Hons) accredited for CEng will be able to show that they have satisfied the further learning requirement for CEng accreditation.

This course is also accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council and will meet, in part, the exemplifying academic benchmark requirements for registration as a Chartered Engineer. Accredited MSc graduates who also have a BEng (Hons) accredited for CEng, will be able to show that they have satisfied the educational base for CEng registration. It should be noted that graduates from an accredited MSc programme, who do not also have an appropriately accredited Honours degree, will not be regarded as having the exemplifying qualifications for professional registration as a Chartered Engineer with the Engineering Council; and will need to have their first qualification individually assessed through the Individual Case Procedure if they wish to progress to CEng.

This programme is CEng accredited by the Institution of Engineering and Technology (IET) and fulfils the educational requirements for registration as a Chartered Engineer when presented with an CEng accredited Bachelors programme.

Course structure

You choose a combination of management, technical and optional modules from a choice of 36. Your choice must total eight 15-credit modules and be agreed with your course leader. At least four must be technical modules.

Optional management modules

  • finance and marketing
  • project and quality management
  • management of strategy, change and innovation
  • lean operations and six sigma
  • manufacturing systems

Optional technical modules

• group project - international product development • competitive materials technology • advanced CAD/CAM • competitive design for manufacture • advanced manufacturing technology • advanced metallic materials • sustainability, energy and environmental management • computer networks • communication media • network applications • communication engineering • digital signal processing • applicable artificial intelligence • microprocessor engineering • software engineering • operating systems • object oriented methods • digital electronic system design • VLSI design • industrial applications of finite element methods • industrial automation • robotics • machine vision • equipment engineering and design • control of linear systems • advanced investigatory techniques for materials engineers • advanced control methods • advanced vibration and acoustics

MSc

  • project and dissertation (60 credits)

Assessment

By final examination, coursework and project reports    

Employability

Graduates in technical subjects can broaden their experience in mechanical manufacturing, electronics and information technology, networking, materials and management areas.

The flexible choice of modules allows you to tailor the course to your particular needs and this can enhance career prospects in the engineering industry, research, teaching and public service.

   



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This course is for engineers or graduates who want to become technical specialists or managers in industrial and manufacturing companies. Read more

This course is for engineers or graduates who want to become technical specialists or managers in industrial and manufacturing companies.

It increases your career potential by improving your

  • knowledge and experience of engineering
  • technical and problem solving skills
  • management skills
  • ability to take on greater responsibility

This course helps you understand concepts and theories behind developing, manufacturing and managing engineering products and systems. You learn to explore and apply developments in engineering and management academic thinking and industrial practice.

You study

  • two management modules
  • two technical modules
  • four optional modules

There is a wide range of optional modules including • lean operations and six sigma • advanced manufacturing technology • applicable artificial intelligence • computer-aided design/computer-aided manufacture • advanced computer system architecture • network applications.

The international product development module involves working in multidisciplinary teams to develop a new product in a global market. This allows you to develop much sought after advanced technical and business skills and improves your career prospects in engineering industry, and public service. This project also develops your particular interest in a supported environment.

Professional recognition

This course is accredited by the Institute of Materials, Minerals and Mining (IOM3), on behalf of the Engineering Council, for the purposes of partly meeting the academic requirement for registration as a Chartered Engineer; graduates who have a BEng (Hons) accredited for CEng will be able to show that they have satisfied the further learning requirement for CEng accreditation.

This course is also accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council and will meet, in part, the exemplifying academic benchmark requirements for registration as a Chartered Engineer. Accredited MSc graduates who also have a BEng (Hons) accredited for CEng, will be able to show that they have satisfied the educational base for CEng registration. It should be noted that graduates from an accredited MSc programme, who do not also have an appropriately accredited Honours degree, will not be regarded as having the exemplifying qualifications for professional registration as a Chartered Engineer with the Engineering Council; and will need to have their first qualification individually assessed through the Individual Case Procedure if they wish to progress to CEng.

This programme is CEng accredited by the Institution of Engineering and Technology (IET) and fulfils the educational requirements for registration as a Chartered Engineer when presented with an CEng accredited Bachelors programme.

Course structure

Core management modules

  • Finance and marketing
  • Project and quality management

Core technical modules

  • Group project – international product development
  • Sustainability, energy and environmental management

Optional modules

Two from

• lean operations and six sigma • management of strategy, change and innovation • manufacturing systems

plus two from

• advanced control methods • advanced investigatory techniques for materials engineers • advanced manufacturing technology • advanced metallic materials • advanced vibration and acoustics • applicable artificial intelligence • computer-aided design/computer-aided manufacturing • communication engineering • communication media • computer networks • competitive design for manufacture • competitive materials technology • control of linear systems • digital electronics system design • digital signal processing • embedded systems • equipment engineering and design • industrial applications of finite element methods • industrial automation • machine vision • microprocessor engineering • advanced computer system architecture • network applications • object-oriented methods • operating systems • robotics • software engineering • VSLI

MSc

  • Project and dissertation

Assessment

  • examination
  • coursework
  • project reports

Employability

If you are a new graduate, this course gives you the knowledge and skills to begin a career as a technical specialist or manager. If you are already employed in engineering, it improves you career potential and can lead to roles with greater responsibility.

It can also help towards a career teaching engineering.



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This course is for engineers who wish to develop their skills and knowledge in energy systems that will meet future energy needs. Read more
This course is for engineers who wish to develop their skills and knowledge in energy systems that will meet future energy needs. Such energy systems will need to be designed and implemented in accordance with principles of sustainability.

The course content is designed to be relevant to international, national and local government energy policies and strategies, and will be of value to anyone working in an energy related engineering discipline. The primary focus of the course is for graduates in building services, mechanical, electrical and chemical engineering.

The aims of the course are to:

• Present and take forward arguments for sustainability in the design and implementation of energy delivery systems
• Provide you with a broad basis of advanced understanding in the technologies that deliver high quality energy services with minimum environmental impact
• Design appropriate decentralised energy delivery systems, based on a range of criteria including environment, cost and engineering potential
• Develop your understanding of policy, market and institutional factors that promote or constrain innovation.

Excellent scholarship opportunity

Students who have accepted an offer for a full-time place on this course are encouraged to apply for LSBU's Kevin Herriott scholarship. Find out more about the Kevin Herriott scholarship:

http://www.lsbu.ac.uk/courses/postgraduate/fees-and-funding/scholarships/kevin-herriott-scholarship

Students on this course are also eligible to apply for a bursary from the Panasonic Trust fellowship scheme, worth £8,000.

Modules

An indicative list of topics covered on this course are:

Renewable energy technologies 1
Renewable energy technologies 2
Energy resource and use analysis
Electrical power
Sustainable refrigeration
Environmental management
Energy engineering project

Please visit the website to see how these modules are assessed:

http://www.lsbu.ac.uk/courses/course-finder/sustainable-energy-systems-msc#course_tab_modules

Timetable

Full-time timetable: 2 days per week

Part-time day release timetable: 1 day per week

Accreditation

This course is accredited by the Chartered Institution of Building Services Engineers (CISBE) and the Energy Institute as masters further learning to meet the academic requirements of becoming a Chartered Engineer (with a suitable first degree).

The course is accredited on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Employability

The emergence of sustainable energy technologies, together with targets for implementation, mean that specialist engineers will increasingly be in demand to specify, design and install these systems. Many engineering consultancies and energy service companies are developing specialist sustainability teams, and already there is a shortage of skilled personnel.

Professional accreditation

The course provides the Masters level academic requirements leading to Chartered Engineer status when following on from an appropriate accredited BEng degree.

The course is accredited on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

LSBU Employability Services

LSBU is committed to supporting you develop your employability and succeed in getting a job after you have graduated. Your qualification will certainly help, but in a competitive market you also need to work on your employability, and on your career search. Our Employability Service will support you in developing your skills, finding a job, interview techniques, work experience or an internship, and will help you assess what you need to do to get the job you want at the end of your course. LSBU offers a comprehensive Employability Service, with a range of initiatives to complement your studies, including:

• Direct engagement from employers who come in to interview and talk to students
• Job Shop and on-campus recruitment agencies to help your job search
• Mentoring and work shadowing schemes.

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Computer Modelling in Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Computer Modelling in Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

This MRes in Computer Modelling in Engineering programme consists of two streams: students may choose to specialise in either structures or fluids. The taught modules provide a good grounding in computer modelling and in the finite element method, in particular.

Key Features of MRes in Computer Modelling in Engineering

Computer simulation is now an established discipline that has an important role to play in engineering, science and in newly emerging areas of interdisciplinary research.

Using mathematical modelling as the basis, computational methods provide procedures which, with the aid of the computer, allow complex problems to be solved. The techniques play an ever-increasing role in industry and there is further emphasis to apply the methodology to other important areas such as medicine and the life sciences.

The Zienkiewicz Centre for Computational Engineering, within which this course is run, has excellent computing facilities, including a state-of-the-art multi-processor super computer with virtual reality facilities and high-speed networking.

This Computer Modelling in Engineering course is suitable for those who are interested in gaining a solid understanding of computer modelling, specialising in either structures or fluids, and taking the skills gained through this course to develop their career in industry or research.

If you would like to qualify as a Chartered Engineer, this course is accredited with providing the additional educational components for the further learning needed to qualify as a Chartered Engineer, as set out by UK and European engineering professional institutions.

Modules

Modules on the Computer Modelling in Engineering programme typically include:

• Finite Element and Computational Analysis

• Numerical Methods for Partial Differential Equations

• Solid Mechanics

• Advanced Fluid Mechanics

• Dynamics and Transient Analysis

• Communication Skills for Research Engineers

• MRes Research Project

Accreditation

The MRes Computer Modelling in Engineering course is accredited by the Joint Board of Moderators (JBM).

The Joint Board of Moderators (JBM) is composed of the Institution of Civil Engineers (ICE), the Institution of Structural Engineers (IStructE), the Chartered Institution of Highways and Transportation (CIHT), and the Institute of Highway Engineers (IHE).

The MRes Computer Modelling in Engineering degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree.

The MRes Computer Modelling in Engineering degree has been accredited by the JBM under licence from the UK regulator, the Engineering Council.

Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). An accredited degree will provide you with some or all of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng). Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.

Links with Industry

The Civil and Computational Engineering Centre has an extensive track record of industrial collaboration and contributes to many exciting projects, including the aerodynamics for the current World Land Speed Record car, Thrust SSC, and the future BLOODHOUND SSC, and the design of the double-decker super-jet Airbus A380.

Examples of recent collaborators and sponsoring agencies include: ABB, Audi, BAE Systems, British Gas, Cinpress, DERA, Dti, EADS, EPSRC, European Union, HEFCW, HSE, Hyder, Mobil, NASA, Quinshield, Rolls-Royce, South West Water, Sumitomo Shell, Unilever, US Army, WDA.

Student Quotes

“I was attracted to the MRes course at Swansea as the subject matter was just what I was looking for.

I previously worked as a Cardiovascular Research Assistant at the Murdoch Children’s Research Institute in Melbourne. My employer, the Head of the Cardiology Department, encouraged me to develop skills in modelling as this has a lot of potential to help answer some current questions and controversies in the field. I was looking for a Master’s level course that could provide me with computational modelling skills that I could apply to blood flow problems, particularly those arising from congenital heart disease.

The College of Engineering at Swansea is certainly a good choice. In the computational modelling area, it is one of the leading centres in the world (they wrote the textbook, literally). A lot of people I knew in Swansea initially came to study for a couple of years, but then ended up never leaving. I can see how that could happen.”

Jonathan Mynard, MRes Computer Modelling in Engineering, then PhD at the University of Melbourne, currently post-doctoral fellow at the Biomedical Simulation Laboratory, University of Toronto, Canada

Careers

Employment in a wide range of industries, which require the skills developed during the Computer Modelling in Engineering course, from aerospace to the medical sector. Computational modelling techniques have developed in importance to provide solutions to complex problems and as a graduate of this course, you will be able to utilise your highly sought-after skills in industry or research.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

World-leading research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

Highlights of the Engineering results according to the General Engineering Unit of Assessment:

Research Environment at Swansea ranked 2nd in the UK

Research Impact ranked 10th in the UK

Research Power (3*/4* Equivalent staff) ranked 10th in the UK



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Could you see yourself designing high performance bikes, working with racing car teams or producing ground breaking medical components? You could follow in the footsteps of some of our graduates and begin shaping your own exciting career in mechanical engineering. Read more
Could you see yourself designing high performance bikes, working with racing car teams or producing ground breaking medical components? You could follow in the footsteps of some of our graduates and begin shaping your own exciting career in mechanical engineering.

You will distinguish yourself professionally with a degree accredited by the Institution of Mechanical Engineers (IMechE) and the Institute of Materials, Minerals and Mining (IoM3) for Chartered Engineer status. You can apply to either of these institutions for membership as a Chartered Engineer.

Key features

-Open the door to a successful future. Our graduates have gone on to work for Ferrari, Honda, British Cycling, Rolls-Royce, Williams Grand Prix Engineering, Activa, Babcock Marine, Princess Yachts and more.
-Primed for your career: 82 per cent of our students are in a professional or managerial job six months after graduation. (Source: unistats)
-Benefit from an optional 48 week paid work placement.
-Distinguish yourself professionally with a degree accredited by the Institution of Mechanical Engineers (IMechE) and the Institute of Materials, Minerals and Mining (IoM3) for Chartered Engineer status. You can apply to either of these institutions for membership as a Chartered Engineer.
-Develop a strong foundation in mechanical engineering principles and materials science.
-Choose from specialist modules in composites engineering, design and manufacture.
-Experience modern laboratory facilities for practical work which is a core part of the degree.
-Benefit from working on industrially relevant problems within composite materials and design of composite structures.

Course details

Year 1
In Year 1, you’ll acquire a sound foundation in design, mechanics, materials, electrical principles, thermo-fluids, mathematics and business, learning by active involvement in real engineering problems. You‘ll undertake a popular hands-on module in manufacturing methods. Modules are shared with the MEng and BEng (Hons) in Mechanical Engineering and the MEng and BEng (Hons) Marine Technology.

Core modules
-MECH120 Skills for Design and Engineering (Mechanical)
-THER104 Introduction to Thermal Principles
-BPIE115 Stage 1 Mechanical Placement Preparation
-MECH117 Mechanics
-MECH118 Basic Electrical Principles
-A5MFT1 Mech BEng 1 MFT Session
-MATH187 Engineering Mathematics
-MATS122 Manufacturing and Materials
-MECH121PP Team Engineering (Engineering Design in Action)

Year 2
In Year 2, you’ll build your knowledge of composite materials in preparation for specialist modules in the final year. The central role of design integrates with other modules like structures and materials. You'll also study modules on thermodynamics, fluid mechanics, business dynamics, mathematics and control and quality management.

Core modules
-BPIE215 Stage 2 Mechanical Placement Preparation
-CONT221 Engineering Mathematics and Control
-HYFM230 Fluid Mechanics 1
-STRC203 Engineering Structures
-MECH232 Engineering Design
-MFRG208 Quality Management l
-MATS234 Materials
-THER207 Applied Thermodynamics
-STO208 Business for Engineers

Optional placement year
In Year 3, you're strongly encouraged to do a year’s work placement to gain valuable paid professional experience. We will support you to find a placement that is right for you. Our students have worked for a variety of companies from BMW Mini, Bentley, Babcock Marine to NASA. A successful placement could lead to sponsorship in your final year, an industrially relevant final year project, and opportunities for future employment.

Optional modules
-BPIE335 Mechanical Engineering Related Placement

Year 4
In Year 4, you’ll specialise in composites design, engineering and manufacture. You’ll undertake an group design project. Additional modules of study include statistics and quality management. You'll also develop your knowledge and skills through an in-depth project on a topic of your choice.

Core modules
-HYFM322 Computational Fluid Dynamics
-MFRG311 Quality Management II
-MATS347 Composites Design and Manufacture
-PRME307 Honours Project
-MATS348 Composites Engineering
-MECH340 Engineering Design

Final year
In your final year, you'll extend your existing skills in engineering design, analysis and control theory. Broaden your knowledge by studying subjects such as entrepreneurship, advanced information technology, robotics and marine renewable energy. You’ll also work in a design team with students from other engineering disciplines working on projects such as design, materials and environmental issues related to bioenergy production, gas/nuclear power stations, energy from the sea and eco villages.

Core modules
-MECH532 Applied Computer Aided Engineering
-MECH533 Robotics and Control
-MECH534 Product Development and Evaluation
-MAR528 Mechanics of MRE Structures
-PRCE513 Interdisciplinary Design
-MECH544 Data Processing, Simulation and Optimisation of Engineering Systems

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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IN BRIEF. Member of the national Universities Transport Partnership. Emphasis on methodology and practice, guided by the needs of employers. Read more

IN BRIEF:

  • Member of the national Universities Transport Partnership
  • Emphasis on methodology and practice, guided by the needs of employers
  • Accredited by the Joint Board of Moderators (Institution of Structural Engineers, Institution of Civil Engineers, Institution of Highways & Transportation) as fully satisfying requirements for Further Learning for a Chartered Engineer (CEng)
  • Part-time study option
  • International students can apply

COURSE SUMMARY

This course has been running for more than forty years and is recognised as providing a good grounding for students interested in the management, engineering and planning of transport infrastructure. It takes students from a wide range of relevant backgrounds.

The emphasis of the course is on current methodology and practice to improve your employability with engineering and planning departments of local and central governments, passenger transport executives, and transport consultants.

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree.

COURSE DETAILS

Transport engineering modules relate to traffic engineering and transport systems design. Transport planning modules consider policy (such as reducing car dependency), travel demand forecasting and appraisal. If you have a civil engineering background you can elect to take an optional module in transport infrastructure design as an alternative to the extended modelling and appraisal work.

The course is supported by field surveys, seminars and studio work, allowing students to experience a range of relevant computer packages and methodological approaches.

You are also required to produce a dissertation with the close supervision of an expert academic member of staff.

This course may be taken on a full-time or part-time basis. The part-time course enables candidates who would not normally be able to obtain a year’s release from employment to also study in depth and is used by some employers as part of their formal graduate training programme.

TEACHING

The course combines formal lectures and seminars with extensive coursework including transport planning studio work, traffic survey projects, appraisal assignments and statistics tutorials. The teaching panel includes visiting specialists with expert knowledge of specific topics.

You will be exposed to a range of relevant transport software.

Part-time students study the taught modules over two years on a day-release basis (currently Thursdays)

ASSESSMENT

Assessment is by a combination of formal examinations, tutorial and seminar work, course assignment portfolio and a dissertation.  The overall breakdown is:

  • Examination: 50%
  • Coursework: 50%

CAREER PROSPECTS

Graduates from this course work in local authorities, consultancies and transport utilities. Some graduates work on projects overseas. The postgraduate qualification is highly valued by employers.

The MSc award is approved as further learning for those working towards Chartered Engineer status. The  programme team has close contacts with local employers and the Professional Institutions.

FURTHER STUDY

Some of our students go on to study in our Civil Engineering Research Centre.  

Research in this Centre is focused into four main themes, aligned with the core elements of the civil engineering curriculum: Structural Engineering, Transport Engineering, Geotechnical Engineering and Hydraulics. Our aim is to provide leading edge sustainable research that is both fundamental and relevant in today’s changing society and environment that is underpinned by strong links with academics from throughout Europe and with industrial partners, such as Network Rail, GMPTE, Atkins, Veolia and UIC.

http://www.cse.salford.ac.uk/research/engineering-2050/civil-engineering/



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Would you like to stand out in the employment job market by advancing your current qualification to master’s level?. The MSc Mechanical Engineering course will provide you with advanced knowledge and skills in key aspects of mechanical engineering. Read more
Would you like to stand out in the employment job market by advancing your current qualification to master’s level?

The MSc Mechanical Engineering course will provide you with advanced knowledge and skills in key aspects of mechanical engineering. Throughout the duration of this course you will develop a critical awareness of ethical and environmental considerations, in addition to learning about advanced mechanical engineering practice and theory.

Accredited by the Institution of Mechanical Engineers (IMechE), this course fully meets the academic requirements to become a Chartered Engineer.

At a time when there is an international shortage of mechanical engineers there has never been a better time to enter this dynamic and rewarding industry.

Accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.

This course can also be started in January - for more information, please view this web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/mechanical-engineering-msc-ft-dtfmez6/

Learn From The Best

You’ll be taught by tutors who have many years of experience in the various aspects of the engineering industry. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning.

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent. (Research Excellence Framework 2014.)

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. We’ve built up numerous industrial links during the 50+ years that we’ve been offering engineering courses. These links help ensure high quality placements and collaborative projects.

Northumbria has the advantage of being located in the North East of England, which is a centre of manufacturing and technical innovation. As well as Nissan, the region’s #1 company, there is a strong concentration of automotive, engineering, chemicals, construction and manufacturing companies.

Teaching And Assessment

The initial semesters of this course focus on taught subjects that cover topics such as computational fluid dynamics and heat transfer, multidisciplinary design and engineering optimisation, composite materials and lightweight structures, advanced stress and analysis and thermo-mechanical energy conversion systems.

Teaching is primarily delivered by lectures, seminars and workshops, all of which are assessed by methods such as assignments, exams and technical reports. All of this course’s assessments have been devised to closely mirror the outputs required in a real working environment.

On completion of the taught modules you will undertake a substantial piece of research related to an area of mechanical engineering that particularly interests you. Our teaching team will be on-hand to offer support and guidance throughout every stage of your course.

Module Overview
KB7001 - Computational Fluid Dynamics and Heat Transfer (Core, 20 Credits)
KB7006 - Composite Materials and Lightweight Structures (Core, 20 Credits)
KB7008 - Advanced Stress and Structural Analysis (Core, 20 Credits)
KB7030 - Research Methods (Core, 20 Credits)
KB7042 - Thermo-Mechanical Energy Conversion Systems (Core, 20 Credits)
KB7043 - Multidisciplinary Design & Engineering Optimisation (Core, 20 Credits)
KB7052 - Research Project (Core, 60 Credits)

Learning Environment

Throughout the duration of your course you will have access to our dedicated engineering laboratories that are continuously updated to reflect real-time industry practice.

Our facilities include mechanical and energy systems experimentation labs, rapid product development and performance analysis, materials testing and characterisation, 3D digital design and manufacturing process performance.

You will be given the opportunity to get hands-on with testing, materials processing, moulding, thermal analysis and 3D rapid manufacture to help you create the products and systems required for the projects you will work on during your course.

Your learning journey will also be supported by technology such as discussion boards and video tutorials. You will also participate in IT workshops where you will learn how to use the latest industry-standard software.

Videos of lectures will on many occasions be made available through Panopto video software to further support teaching delivery.

You will also have access to all Northumbria University’s state-of-the-art general learning facilities such as dedicated IT suites and learning areas.

Research-Rich Learning

When studying at Northumbria University you will be taught by our team of specialist staff who boast a wealth of multi-dimensional expertise.

Our teaching team includes a dynamic mix of research-active industrial practitioners, renowned researchers and technologists, whose combined knowledge ensures you leave with an in-depth understanding of key mechanical engineering practice and research.

You will be encouraged to undertake your own research–based learning where you will evaluate and critique scientific papers and write research-based reports based on the information gathered.

We aim to regularly welcome industry specialists to deliver guest lecturers to further enable you to understand real-world issues and how they link to the concepts, theories and philosophies taught throughout your course.

The department of Mechanical and Construction Engineering is a top-35 Engineering research department with 79% of our outputs ranked world-leading or internationally excellent according to the latest UK-wide research assessment exercise (REF2014, UoA15). This places us in the top quartile for world-leading publications among UK universities in General Engineering.

Give Your Career An Edge

The MEng Mechanical Engineering course will equip you with all of the skills required to progress within the engineering industry and competition of your master’s degree will give you a competitive edge thanks to the additional skills and knowledge you will acquire.

Our accreditation with the IMechE ensures that this course’s content is in-line with the latest developments within this sector, making our course highly valued by employers.

By completing this course you will have completed the academic requirement to become a Chartered Engineer, a status that is associated with improved employability and higher salaries.

Employability is embedded throughout all aspects of your course and you will leave with enhanced key skills such as communication, computing and teamwork.

Your Future

Mechanical Engineering overlaps with a number of engineering disciplines meaning there are many career paths available to you once you have completed this course.

Many graduates choose to pursue a career in the expansive engineering sector, in roles such as designers, analysts, project managers or consultants.

You may also wish to progress your knowledge to PhD level and this course will provide you with a solid foundation that you can easily build on and advance to an even higher level.

Engineering is a growth industry and currently there is a shortage of engineers. 90% of our graduates are in work or study within six months of graduating and, of those in work, 80% are employed in a professional or managerial job (Unistats 2015).

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Get the advanced engineering knowledge and understanding needed to qualify for full chartered engineer (CEng) status. -Course developed in conjunction with the UK Engineering Council. Read more
Get the advanced engineering knowledge and understanding needed to qualify for full chartered engineer (CEng) status.

Why choose this course?

-Course developed in conjunction with the UK Engineering Council
-Offers progression to Chartered Engineer status
-Requires no time away from employment
-Uses learning through immediate application to real-life work problems to reduce costs or increase value for the employer

Subject Guide & Modules

All modules after the initial Professional Development Audit are highly flexible – they are designed to be tailored to suit each participant’s engineering area, particular interests and employment circumstances. How the learning for each module is composed from workplace projects and distance study of supporting formal material is also flexible and will be negotiated to suit individual needs.

Core modules
-Professional Development Audit (15 credits)
-Current Technologies and Applications (15 credits)
-Emerging Technologies (15 credits)
-Design Methodologies (15 credits)
-Major Project (60 credits)

Optional modules (choice of 3 or 4)
-Scientific Foundations (15 credits)
-Engineering Analysis (15 credits)
-Sustainability (15 credits)
-Project Management (15 credits)
-Further Topics in Engineering Management (15 credits)
-Product Delivery (15 credits)
-Professional Literature Study (15 credits)
-Extended Integrative Option (30 credits)

Learning, Teaching & Assessment

The course begins with a Professional Development Audit (PDA), where we help students evaluate what they have done previously and what they need to add to gain the MSc and qualify for CEng. Based on the PDA, the student and Aston University set up an individual Learning Agreement which specifies the areas of study to be undertaken and how that study will be carried out, through suitable combinations of workplace projects and distance learning, and assessed – mainly through reports on the workplace projects. The student then works through the agreed study and assessment, with support from Aston University staff and a workplace mentor, gradually building over an agreed period to completion and award of the MSc.

Professional Accreditation

Successful completion of MSc Professional Engineering combined with membership of a suitable engineering institution guarantees access to the institution’s process for professional review for CEng registration. Possession of the MSc will meet the educational requirements for CEng. You will still need to satisfy the institution about your practical competences, but MSc Professional Engineering study will help you with this.

Personal Development

As part of the MSc we will work with you to draw up a plan for achieving the full range of personal development expected of a Chartered Engineer under UKSPEC (the UK standard for professional engineering competence). As well as technical competence, this includes the ability to provide technical and commercial leadership, strong interpersonal/communication skills, and a personal commitment to professional standards, society in general and the environment.

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This Masters in Mechanical Engineering is accredited by IMechE and meets Chartered Engineer status. Study with Liverpool John Moores University, master modern CAD software and progress quickly as a postgraduate in this exciting industry. Read more
This Masters in Mechanical Engineering is accredited by IMechE and meets Chartered Engineer status. Study with Liverpool John Moores University, master modern CAD software and progress quickly as a postgraduate in this exciting industry

•Complete this masters degree in one year (full time)
•Accredited by the Institution of Mechanical Engineers, this programme meets Chartered Engineer requirements
•Study at one the UK’s leading Engineering Schools
•Close industry links and programme widely recognised by employers as meeting requirements needed to succeed in the industry
•Excellent career opportunities with consultancies, government bodies and public utilities as well as technical design and mechanical engineer roles


The Mechanical Engineering MSc course is designed so that you can reach senior positions as engineers and technical managers within your career. There is a focus on advanced engineering design, analysis techniques and delivering high quality project results.

The programme adds more depth to experience you may develop within undergraduate Mechanical Engineering degrees and provides a progression route if you have graduated from other relevant programmes in mechanical and manufacturing engineering.

There is a strong emphasis on applying practical analysis tools using industry standard software. Examples of specialist projects include modelling non-linear behaviour in deformed components using Finite Stress Analysis (FSA) and solving complex problems using Computational Fluid Dynamics (CFD).

You will learn advanced analytical and experimental skills so that you can design new processes, products and services when you graduate. You will gain the skills to critically analyse existing designs, their functionality and reliability.

The course incorporates many opportunities for acquiring the communications and managerial skills expected at Chartered Engineer status level. Graduating from the programme will also provide you with a sound academic base for further study in the future.

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The global shortage of qualified civil engineers includes specialists in water engineering and this MSc programme helps redress this imbalance by providing graduates with an advanced knowledge and skill base to equip them for senior industry roles. Read more

About the course

The global shortage of qualified civil engineers includes specialists in water engineering and this MSc programme helps redress this imbalance by providing graduates with an advanced knowledge and skill base to equip them for senior industry roles.

Brunel’s MSc in Water Engineering is unique in providing specialist knowledge on the critical sub-topics of water and wastewater management and engineering, desalination systems, building water services engineering, industrial waste water management, and water in health care.

The programme demonstrates the links between theory and practice by including input from our industrial partners and through site visits. This is a key aspect for establishing a competitive and high added value course that provides adequate links with industry.

Features of the course include:

Students’ skills in gathering and understanding complex information from a variety of sources (including engineering, scientific and socio-economic information) will be developed in an advanced research methods module. 

Issues relating to risk and health and safety will be introduced in the research methods module and built on in specialist modules. 

Generic modules in financial and project management will underpin specialist modules focusing on water engineering topics.

Real problem-solving examples – starting from basic principles, to the identified problem, the solution, the implementation process and was implemented and the end result. 

Real case studies – demonstrating how environmental and economic sustainability is considered within civil engineering, particularly in water resources management.

Aims

Problems associated with water resources, access, distribution and quality are amongst the most important global issues in this century. Water quality and scarcity issues are being exacerbated by rising populations, economic growth and climate change*.

Brunel's programme in Water Engineering aims to develop world class and leading edge experts on water sustainability who are able to tackle the industry’s complex challenges at a senior level. During the programme you will also learn about the development and application of models that estimate the carbon and water footprint within the energy and food sector.

The MSc is delivered by experienced industry professionals who bring significant practical experience to the course – and the University’s complete suite of engineering facilities and world-class research experience are set up for development and engineering of advanced systems, testing a variety of processes, designs and software tools.

*Recent figures indicate that 1.1 billion people worldwide do not have access to clean drinking water, while 2.6 billion do not have adequate sanitation (source: WHO/UNICEF 2005). 

Course Content

The primary aim of this programme is to create master’s degree graduates with qualities and transferable skills for demanding employment in the water engineering sector. Graduates will have the independent learning ability required for continuing professional development and acquiring new skills at the highest level.

Specific aims are as follows:

- To provide education at postgraduate level in civil engineering. 
- To develop the versatility and depth to deal with new, complex and unusual challenges across a range of water engineering issues, drawing on an understanding of all aspects of water engineering principles. 
- To develop imagination, initiative and creativity to enable graduates to follow a successful engineering career with national and international companies and organisations. 
- To provide a pathway that will prepare graduates for successful careers including, where appropriate, progression to Chartered Engineer status.

The programme will provide opportunities for students to develop and demonstrate knowledge and understanding, qualities, skills and other attributes in the following areas:

Knowledge and understanding of:

- The principles of water engineering, including fluid mechanics, hydrology, and sustainable design. 
- Specialist areas that impact on the successful application of water engineering knowledge projects, e.g. sustainable construction management, financial management and risk analysis. 
- The interplay between engineering and sustainability in complex, real-world situations.

At the cognitive level students will be able to:

- Select, use and evaluate appropriate investigative techniques.
- Assemble and critically analyse relevant primary and secondary data.
- Recognise and assess the problems and critically evaluate solutions to challenges in managing water engineering projects.
- Evaluate the environmental and financial sustainability of current and potential civil engineering activities.

Personal and transferable skills that students develop will allow them to:

- Define and organise a substantial advanced investigation. 
- Select and employ appropriate advanced research methods. 
- Organise technical information into a concise, coherent document.
- Effectively employ a variety of communication styles aimed at different audiences. 
- Plan, manage, evaluate and orally-presented personal projects. 
- Work as part of, and lead, a team.

Typical Modules

Each taught module will count for 15 credits, approximating to 150 learning hours. The Master's programme can be taken full time, over 12 months. The first eight months of the full time course will eight taught modules. For the final four months, students will complete a dissertation counting for 60 credits. Modules cover:

Sustainable Project Management
GIS and Data Analysis
Water Infrastructure Engineering
Risk and Financial Management
Hydrology & Hydraulics
Water Treatment Engineering
Water Process Engineering
Research Methods
Civil Engineering Dissertation

Teaching

Our philosophy is to underpin theoretical aspects of the subject with hands-on experience in applying water engineering techniques. Although you may move on to project management and supervision roles, we feel it important that your knowledge is firmly based on an understanding of how things are done. To this end, industrial partners will provide guest lectures on specialist topics.

In addition to teaching, water engineering staff at Brunel are active researchers. This keeps us at the cutting edge of developments and, we hope, allows us to pass on our enthusiasm for the subject.

How many hours of study are involved?

Contact between students and academic staff is relatively high at around 20 hours per week to assist you in adjusting to university life. As the course progresses the number of contact hours is steadily reduced as you undertake more project-based work.

How will I be taught?

Lectures:
These provide a broad overview of the main concepts and ideas you need to understand and give you a framework on which to expand your knowledge by private study.
Laboratories:
Practicals are generally two- or three-hour sessions in which you can practise your observational and analytical skills, and develop a deeper understanding of theoretical concepts.
Design Studios:
In a studio you will work on individual and group projects with guidance from members of staff. You may be required to produce a design or develop a solution to an engineering problem. These sessions allow you to develop your intellectual ability and practice your teamwork skills.
Site visits:
Learning from real-world examples in an important part of the course. You will visit sites featuring a range of water engineering approaches and asked to evaluate what you see.
One-to-one:
On registration for the course you will be allocated a personal tutor who will be available to provide academic and pastoral support during your time at university. You will get one-to-one supervision on all project work.

Assessment

Several methods of assessment are employed on the course. There are written examinations and coursework. You will undertake projects, assignments, essays, laboratory work and short tests.

Project work is commonplace and is usually completed in groups to imitate the everyday experience in an engineering firm, where specialists must pool their talents to design a solution to a problem.

In this situation you can develop your management and leadership skills and ensure that all members of the group deliver their best. Group members share the mark gained, so it is up to each individual to get the most out of everyone else.

Special Features

Extensive facilities
Students can make the most of laboratory facilities which are extensive, modern and well equipped. We have recently made a major investment in our Joseph Bazalgette Laboratories which includes hydraulic testing laboratory equipment and facilities such as our open channel flow flumes.

Personal tutors
Although we recruit a large number of highly qualified students to our undergraduate, postgraduate and research degrees each year, we don’t forget that you are an individual. From the beginning of your time here, you are allocated a personal tutor who will guide you through academic and pastoral issues.

World-class research
The College is 'research intensive' – most of our academics are actively involved in cutting-edge research. Much of this research is undertaken with collaborators outside the University, including construction companies, water utilities, and other leading industrial firms. We work with universities in China, Poland, Egypt, Turkey, Italy, Denmark and Japan. This research is fed directly into our courses, providing a challenging investigative culture and ensuring that you are exposed to up-to-date and relevant material throughout your time at Brunel.

Strong industry links
We have excellent links with business and industry in the UK and overseas. This means:
Your degree is designed to meet the needs of industry and the marketplace.
The latest developments in the commercial world feed into your course.
You have greater choice and quality of professional placements.
We have more contacts to help you find a job when you graduate.

Visting Professors 
The Royal Academy of Engineering - UK’s national academy for engineering has appointed senior industrial engineers as visiting professors at Brunel University London.
The Visting Professors Scheme provides financial support for experienced industrial engineers to deliver face-to-face teaching and mentoring at a host of institutions. Our engineering undergraduates will benefit from an enhanced understanding of the role of engineering and the way it is practised, along with its challenges and demands. 

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

This course has been designed in close consultation with the industry and is accredited as a designated 'technical' MSc degree by the Join Board of Moderators (JBM). The JBM is made up of Institution of Highways and Transport and the Institution of Highway Engineeres respectively.

1. This means this course provides Further Learning for a Chartered Engineer who holds a CEng accredited first degree (full JBM listing of accredited degrees).
2. As a designated ‘technical’ MSc, it will also allow suitable holders of an IEng accredited first degree to meet the educational base for a Chartered Engineer.

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Renewable energy is an essential and vital resource for the world’s future, and future there is an urgent need for engineers capable of solving the industry’s complex challenges in this field. Read more

About the course

Renewable energy is an essential and vital resource for the world’s future, and future there is an urgent need for engineers capable of solving the industry’s complex challenges in this field.

Studying Renewable Energy Engineering at Brunel provides graduates with the knowledge and skills to make a strategic real-world impact in the resolution of the world’s energy problems.

Graduates from Brunel’s MSc in Renewable Energy Engineering will develop:

- The versatility and depth to deal with new, demanding and unusual challenges across a range of renewable energy issues, drawing on an understanding of all aspects of renewable energy principles including economic assessment.

- The imagination, initiative and creativity to enable them to follow a successful engineering career with national and international companies and organisations.

- Specialist knowledge and transferable skills for successful careers including, where appropriate, progression to Chartered Engineer status.

Aims

Huge business incentives, markets and a wide variety of employment opportunities throughout the world are expected with the development of renewable energy resources as a substitute for fossil fuel technology.

The purpose of the MSc programme is to help meet this demand by cultivating qualified and skilled professionals with specialist knowledge in relevant technologies within the renewable energy sector.

The primary aim is to create Master’s degree graduates with qualities and transferable skills ready for demanding employment in the renewable energy sector. These graduates will have the independent learning ability required for continuing professional development and acquiring new skills at the highest level, and the programme also establishes a strong foundation for those who expect to continue onto a PhD or industrial research and development.

Initial programme learning outcomes

The programme will provide opportunities for students to develop and demonstrate knowledge and understanding, qualities, skills and other attributes in the following areas:

Knowledge and understanding of:

1.The principles and environmental impact of renewable energy technologies, including solar (thermal and electricity), wind, tidal, wave and hydro, geothermal, biomass and hydrogen.
3. The principles of energy conversion and appropriate thermodynamic machines.
4. The heat and mass transfer processes that relate to energy systems and equipment.
5. The principles, objectives, regulation, computational methods, economic procedures, emissions trading, operation and economic impact of energy systems.
6. The diversity of renewable energy system interactions and how they can be integrated into actual energy control systems and industrial processes.

At the cognitive thinking level, students will be able to:

1. Select, use and evaluate appropriate investigative techniques.
2. Assemble and critically analyse relevant primary and secondary data.
3. Recognise and assess the problems and critically evaluate solutions to challenges in managing renewable energy projects.
4. Evaluate the environmental and financial sustainability of current and potential renewable energy activities
5. Develop a thesis by establishing the basic principles and following a coherent argument.

In terms of practical, professional and transferable skills, students will be able to:

1. Define and organise a substantial advanced investigation.
2. Select and employ appropriate advanced research methods.
3. Organise technical information into a concise, coherent document.
4. Communicate effectively both orally and in writing.
5. Design and select renewable energy equipment and systems based on specific requirements/conditions.
6. Work as part of, and lead, a team.

Course Content

The taught element of the course (September to April) includes eight modules; delivery will be by a combination of lectures, tutorials and group/seminar work. A further four months (May to September) is spent undertaking the dissertation.

Compulsory modules:

Renewable Energy Technologies I-Solar Thermal and electricity systems
Renewable Energy Technologies II-Wind, Tidal, Wave, Hydroelectricity
Renewable Energy Technologies III-Geothermal, Biomass, Hydrogen
Power Generation from Renewable Energy   
Renewable Energy Systems for the Built Environment
Energy Conversion Technologies
Environmental Legislation: Energy and Environmental Review and Audit
Advanced Heat and Mass Transfer
Dissertation

Teaching

Students are introduced to subject material, including key concepts, information and approaches, through a mixture of standard lectures and seminars, laboratory practical, field work, self-study and individual research reports. Supporting material isavailable online. The aim is to challenge students and inspire them to expand their own knowledge and understanding.

Preparation for work is achieved through the development of 'soft' skills such as communication, planning, management and team work. In addition, guest speakers from industries provide a valuable insight into the real world of renewable energy.

Many of the practical activities in which the students engage, develop into enjoyable experiences. For example, working in teams for laboratory and field work and site visits. We encourage students to develop personal responsibility and contribution throughout the course. Many elements of coursework involve, and reward, the use of initiative and imagination. Some of the projects may be linked with research in CEBER, CAPF and BIPS research centres.

1 Year Full-Time: The taught element of the course (September to April) is delivered by a combination of lectures, tutorials and group/seminar work. From May to September students undertake the dissertation.

3-5 Years Distance Learning: The programme is designed to enable you to conduct most of your studies at home, in your own time and at your own pace. Students are supplied with a study pack in the form of text books and CD-ROMs; cut-off dates for receipt of assignments are specified at the beginning of each stage. Examinations can be taken either at Brunel University London or in the country you are resident in. The dissertation is carried out in one year.

Modules are assessed either by formal examination, written assignments or a combination of the two.

Assessment

Each module is assessed either by formal examination, written assignments or a combination of the two. Cut-off dates for receipt of assignments are specified at the beginning of the academic year. Examinations are normally taken in May. The MSc dissertation project leading to submission of the MSc Dissertation is normally carried out over four months (FT students) or one year (DL students).

Special Features

Excellent facilities
We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

About Mechanical Engineering at Brunel
Mechanical Engineering offers a number of MSc courses all accredited by professional institutes as appropriate additional academic study (further learning) for those seeking to become qualified to register as Chartered Engineers (CEng). Accrediting professional institutes vary by course and include the Institute of Mechanical Engineers (IMechE), Energy Institute (EI) and Chartered Institute of Building Services Engineers (CIBSE).

Teaching in the courses is underpinned by research activities in aerospace engineering, automotive/motorsport engineering, solid and fluid mechanics, and energy & environment. Staff generate numerous publications, conference presentations and patents, and have links with a wide range of institutions both within and outside the UK. The discipline benefits from research collaboration with numerous outside organisations including major oil companies, vehicle manufacturers, and other leading industrial firms and governmental laboratories. We have links with at least six teaching hospitals and work with universities in China, Poland, Egypt, Turkey, Denmark, Japan, Brazil, Germany, Belgium, Greece, Italy and the US.

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

The requirement of UK-SPEC reinforces the need for a recent graduate with a Bachelor degree to take an appropriate postgraduate qualification in order to become a chartered engineer (currently, an accredited Bachelors degree does not enable the graduate to proceed to Chartered Engineer status without additional learning at M level).

This MSc program will be compliant with the further learning requirements of UK-SPEC. Accreditation will be sought from the Institute of Mechanical Engineering (IMechE) and Energy Institute. As a result, it will appeal to recent graduates who have not yet obtained the appropriate qualifications but intend to become Chartered Engineers. Most importantly, it will appeal to Mechanical, Chemical and Building Services Engineering graduates who wish to specialise in energy, or suitably experienced graduates of related subjects such as Physics.

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Automation, control and robotics are pervasive enabling technologies found in almost every modern technical system, particularly in manufacturing and production. Read more

Automation, control and robotics are pervasive enabling technologies found in almost every modern technical system, particularly in manufacturing and production. They combine the diverse and rapidly expanding disciplines of automation, control, mechanics, software and signal processing.

This course is ideal if you wish to develop comprehensive knowledge and understanding of • classical and modern control theory • industrial automation • systems analysis • design and simulation • robotics.

You gain the ability to apply principles of modelling, classical and modern control concepts and controller design packages in various areas of industry. You also learn how to design and exploit automation and robotic systems in a range of manufacturing and industrial applications.

The course has six core modules which cover the major aspects of industrial automation and control systems engineering and robotics, ranging from classical linear control system design to non-linear, optimal and intelligent control systems, including distributed control systems, robotics, computer networks and artificial intelligence.

You also choose two optional modules relevant to automation and control to suit your interests. For example, if you wish to work in the manufacturing industry you can choose manufacturing systems or machine vision. There is the opportunity to study one or two management modules if you wish to apply yourself to a more managerial role.

To gain the masters you complete a major research-based project, which can be focused on an area of your particular interest or career need.

You work alongside staff from the Electrical, Electronic and Control Engineering Group and the Centre for Automation and Robotics Research (CARR) at Sheffield Hallam. This provides the opportunity to work with active researchers.

Professional recognition

This course is seeking accreditation by the Institution of Engineering and Technology (IET) on behalf of the Engineering Council for the purposes of fully meeting the academic requirements for registration as a Chartered Engineer. The MSc will meet, in part, the exemplifying academic benchmark requirements for registration as a Chartered Engineer; graduates who have a BEng (Hons) accredited for CEng will be able to show that they have satisfied the further learning requirement for CEng accreditation.

Course structure

Core modules

  • industrial automation
  • control of linear systems
  • advanced control methods
  • robotics
  • applicable artificial intelligence

Options

Choose two from

  • software engineering
  • computer networks
  • project and quality management
  • sustainability, energy and environmental management
  • machine vision
  • digital signals processing
  • manufacturing systems
  • mixed signal design
  • electrical energy systems
  • efficient machines and electromagnetic applications.

MSc

  • project and dissertation

Assessment

  • coursework
  • examination
  • presentation
  • MSc project report

Employability

This course provides you with the knowledge and skills for further advanced study in this area.

You can also apply your skills in an industrial setting for automated manufacturing, control system design, or in the wide range of industries that exploit intelligent robotics. Graduates from this course find career opportunities in areas including • automation and control • process and petrochemical • biomedical • manufacturing • energy • automotive • aerospace.

You can also pursue careers in engineering design and development, engineering research, engineering consultancy and engineering management.

Completing this course combined with further work-based experience enables you to gain Chartered Engineer status.



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Developed with the Engineering Council, this online engineering degree is a highly flexible, part-time route to obtaining an engineering Masters degree without taking time off work. Read more
Developed with the Engineering Council, this online engineering degree is a highly flexible, part-time route to obtaining an engineering Masters degree without taking time off work.

Become a Chartered Engineer
Through the combination of the MSc Professional Engineering and work based learning you will achieve the academic qualifications and professional development required to apply for registration as a Chartered Engineer.
Becoming a Chartered Engineer provides international recognition of your expertise to further advance your career and employability. It may increase your earning potential and provide you with a greater influence within your organisation and industry.

Learn from a university at the heart of UK engineering
Derby is located at the very centre of the UK and is home to engineering giants like Rolls Royce, Bombardier and Toyota. Coming from a city filled with engineering history and at the birth place of the industrial revolution, we know a thing or two about engineering.

Interactive and practical learning
This online learning degree is specifically designed by our expert online tutors and contains plenty of opportunities to interact with tutors and other students through online discussion forums, virtual class room sessions and more traditional forms of communication such as email and Skype.

Supported learning
In addition to our academic teams, you’ll be appointed a dedicated online learner advisor who will support you on any non-academic issues throughout your course.
You’ll also benefit from many other university support services such as student wellbeing, eLibrary and resource centre, IT support and careers and employment service.

When can I start?
Choose from three start dates – January, May or September. You can apply online to secure your place.
Visit our website to learn more.

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This Civil Engineering Masters at Liverpool John Moores University provides a route to Chartered Engineer status. Studying this postgraduate course, you will learn the skills you need to excel within and lead a civil engineering team. Read more
This Civil Engineering Masters at Liverpool John Moores University provides a route to Chartered Engineer status. Studying this postgraduate course, you will learn the skills you need to excel within and lead a civil engineering team

•Course available to study full time (1 year) and part time (2 years)
•Informed by internationally recognised research by our Built Environment and Sustainable Technologies (BEST) Research Institute
•You will enjoy excellent career opportunities in design and site-based roles
•Provides a route satisfying the learning requirements for Chartered Engineer status

Civil Engineering is the branch of engineering which designs and constructs large structures, such as bridges, roads, tunnels, tall buildings and flood defences. The overall aim of this MSc programme is to develop the skills needed to play a leading role in this exciting profession.

The programme is ideally suited to students who have completed a BEng (Hons) in Civil Engineering, but is also suitable for graduates from allied disciplines, such as environmental, mechanical, architectural or building services engineering. The Masters course aims to provide a route for graduates in Civil or Structural Engineering to fulfil the learning requirements for Chartered Engineer status.

The programme builds upon the engineering knowledge and skills developed at first degree level with a stimulating and challenging postgraduate programme of study that will extend your understanding and analytical skills. You will develop a critical awareness of current issues in the field, as informed by ongoing research from LJMU's Built Environment and Sustainable Technologies (BEST) Research Institute.

You will also evaluate the latest research and design methodologies, increase your understanding of ethical issues related to civil engineering, and your responsibilities with regards to sustainable construction.

In addition, you will develop greater understanding of management principles and management strategies and be able to critically evaluate design, construction and operation within the context of both regulation and current developments.

Importantly, you will also be able to apply appropriate technical solutions to the analysis and evaluation of complex design problems.

Please see guidance below on core and option modules for further information on what you will study.
Level 7:
Research Methods
Research Project / Dissertation
Water and Wastewater Treatment
Structural and Earthquake Engineering
Materials Technology
Sustainable Infrastructure
Collaborative BIM Project
PRINCE2®

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

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Taking BEng (Hons) Robotics to the next level, this MEng course digs deeper into the robotic technologies that are shaping today and tomorrow. Read more
Taking BEng (Hons) Robotics to the next level, this MEng course digs deeper into the robotic technologies that are shaping today and tomorrow. Providing an extra year of insight and training, your learning will be informed by robotics research pushing boundaries worldwide led by our very own teaching staff. You’ll build technical and managerial skills that you can put into practice daily, through a final group project that will set your course for success when you graduate.

You will experience learning that meets the highest standard academic requirements set by The Institution of Engineering and Technology (IET). You will draw on unique opportunities to engage in world-class robotics research, and in a variety of activities. You’ll capitalise on the opportunity to take a work placement in your second or third year, putting your robotics skills into action in the real world. You will take the fastest route to Chartered Engineer status.

Key features

-Benefit from outstanding teaching: in the 2016 National Student Survey 93 per cent of our final year students said that “The course is intellectually stimulating”.*
-Immerse yourself in a degree accredited by the Institution for Engineering and Technology (IET) on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer (CEng).
-Keep pace with the fast-moving world of robotics, on a course that cuts a path through the latest research across technologies and disciplines.
-Take the fastest route to Chartered Engineer status.
-Experience learning that meets the highest standard academic requirements set by The Institution of Engineering and Technology (IET).
-Undertake a major robotics design and implementation in your final project, showcasing your technical and managerial skills. Develop your technical content, legal and business skills as well as team working and project planning.
-Capitalise on the opportunity to take a work placement in your second or third year, putting your robotics skills into action in the real world.
-Rise to the challenge as part of the Plymouth Humanoids team, battling it out in a variety of international robot competitions.
-Develop professional writing skills as well as strengthening your technical design skills.
-Refine your professional project management skills, with dedicated professional support from staff across the entire final year on every different aspect of your project.
-Work alongside internationally-renowned staff in a leading service and cognitive robotics research environment.
-Draw on unique opportunities to engage in world-class robotics research, and in a variety of activities (for example, in the humanoid robot football, Federation of International Robot-soccer Association (FIRA) competition).

Course details

Year 1
In your first year you'll learn through doing, developing your knowledge and practical problem solving skills in our dedicated robotics and communications laboratories. From analogue and digital electronics to engineering mathematics, you'll build up the essential foundations of robotics. Group project work will also help you develop your communication skills and you'll learn structured design procedures for hardware and software all brought together in an integrating robotics project.

Core modules
-ELEC143 Embedded Software in Context
-BPIE112 Stage 1 Electrical/Robotics Placement Preparation
-ELEC141 Analogue Electronics
-ELEC142 Digital Electronics
-ELEC144 Electrical Principles and Machines
-MATH187 Engineering Mathematics

Optional modules
-ELEC137PP Electronic Design and Build
-ROCO103PP Robot Design and Build

Year 2
Throughout your second year, you'll develop a greater understanding of underlying engineering principles and circuit design methods. Again there's an emphasis on team-work, with the opportunity to do both group and individual presentations of your projects. You'll use industrial standard software tools for design and simulation, data monitoring and control, all valuable preparation for your final year individual project or for a placement year.

Core modules
-MATH237 Engineering Mathematics and Statistics
-ROCO222 Introduction to Sensors and Actuators
-BPIE212 Stage 2 Electrical/Robotics Placement Preparation
-ROCO224 Introduction to Robotics
-ROCO218 Control Engineering
-ELEC240 Embedded Systems
-ELEC241 Real Time Systems

Optional placement year
Your optional work placement experience gives opportunities to put theory into practice, grow your understanding of robotics in the real world and showcase your growing expertise. We can help you find industrial placement opportunities in the UK, France, Germany or even Japan. Placements will complement your studies with on-the-ground experience and could lead to final year sponsorship. Many of our graduates are offered permanent jobs with their placement company.

Core modules
-BPIE332 Electrical Industrial Placement

Year 4
This is when your skills, expertise and know how come into their own. Through your individual project you'll consolidate your knowledge, explore and evaluate new technologies and showcase your potential. You'll demonstrate your communication skills in an oral and written presentation of your project. Refining the independent learning skills you've developed throughout the course, you'll build a proactive, imaginative and dynamic approach to learning, vital for your future robotics career.

Core modules
-ROCO318 Mobile and Humanoid Robots
-PROJ324 Individual Project
-ELEC351 Advanced Embedded Programming
-AINT308 Machine Vision and Behavioural Computing

Optional modules
-ELEC345 High Speed Communications
-AINT351 Machine Learning

Final year
The MEng includes additional technical modules and a large interdisciplinary design project. There is also the possibility of continuing your studies to MSc level in the same academic year.

Core modules
-ROCO503 Sensors and Actuators
-ROCO504 Advanced Robot Design
-PROJ515 MEng Project
-AINT512 Science and Technology of Human-Robot Interaction

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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