This course starts in January 2018.
This course has been developed in consultation with the nuclear engineering industry to provide advanced theoretical and practical knowledge to work with modern control and instrumentation technologies. This course offers an opportunity not only to specialise in nuclear engineering control, instrumentation and standards for operation and maintenance but also provides sufficient scope for students wishing to develop advanced skills in modern automation and in working with large industrial networks.
You may build valuable skills through a selection of option units and a project to gain advanced knowledge in sustainable energy systems and smart technologies for power system applications or in specialising in embedded systems as well as in applied digital signal processing for industrial applications. The course will also offer opportunities for those interested in combining engineering skills with management practice.
You will learn advanced concepts in the principles and operation of instrumentation for control, including control system architectures, communications, open systems security, hazard analysis, system reliability, safety and protection.
The course enables the appreciation of the practical aspects of control design and maintenance and offers hands-on experience in designing and developing solutions for control problem-solving using the IEC61131-3 standard. The course covers specialist and intelligent sensor systems, PLC-based control, Profibus and Profinet.
This course starts in September 2017 and January 2018. Please note that January starters will have a course duration of approximately 15 months.
Non means-tested loans of up to a maximum of £10,000 will be available to postgraduate masters students - click here to find out more information
1 year full-time, 2 years part-time
UK and EU students
UK and EU students: Full-time fee: £8,460 per year. Tuition fees will remain the same for each year of your course providing you complete it in the normal timeframe (no repeat years or breaks in study).
UK and EU students: Part-time fee: £1410 per 30 credits studied per year. Tuition fees will remain the same for each year of your course providing you complete it in the normal timeframe (no repeat years or breaks in study).
Non-EU and Channel Island students
Non-EU international and Channel Island students: Full-time fee: £14,400 per year. Tuition fees will remain the same for each year of your course providing you complete it in the normal timeframe (no repeat years or breaks in study).
Non-EU international and Channel Island students: Part-time fee: £2400 per 30 credits studied per year. Tuition fees will remain the same for each year of your course providing you complete it in the normal timeframe (no repeat years or breaks in study).
A Masters qualification typically comprises 180 credits, a PGDip 120 credits, a PGCert 60 credits, and an MFA 300 credits. Tuition fees will remain the same for each year of study provided the course is completed in the normal timeframe (no repeat years or breaks in study).
All of the books required for the course are available from the library. The University also has PC labs and a laptop loan service. However, many students choose to buy some of the core textbooks for the course and/or a laptop. Students may also need to print their assignments and other documents. Campus printing costs start from 5p per page. Estimated costs are £300 for a laptop up to £100 for books and printing. Total optional cost: £400
Features and benefits of the course
- Research in the School of Engineering was rated 'internationally excellent' in the Research Excellence Framework (REF).
- The main student intake is in September but it is also possible to begin studying in January.
- Many of our academic staff who teach worked in their industry sector and have well-established links and contacts, ensuring that our curriculum is relevant for future employment.
- Engineering facilities are excellent with a dedicated £4m heavy engineering workshop for research and teaching in surface engineering, materials and dynamics, and state-of-the-art kit including rapid prototyping machines and water jet cutters
About the course
Our engineering Masters programmes are designed to meet the needs of an industry which looks to employ postgraduates who can learn independently and apply critical thinking to real-world problems. Many of the staff who teach in the School also have experience of working in industry and have well-established links and contacts in their industry sector, ensuring your education and training is relevant to future employment.
There is a dual start date of September (main intake) and January available for this course.
Our research in Engineering and Materials
We focus on a wide variety of research in the general areas of engineering and materials science. Researchers in the Engineering and Materials Research Centre are a mix of full and part time staff, postdoctoral researchers, research degree students and visiting fellows and professors from academia and industry.
Our research was rated internationally recognised in the 2014 Research Excellence Framework. Recent research awards from the UK Research Councils, EU Horizon2020, InnovateUK and industry partners include £630k for next generation energy storage devices via 3D printing of graphene, £600k to develop smart communication systems and £100k for an award-winning novel cardiovascular bypass graft.
Typical units of study may include
This course can be taught full-time over 1 year, or part-time over 2 years. If taught full-time all units will be taken within 1 year.
Advanced Control and Instrumentation
MSc Engineering Project
Embedded Systems and Systems on Chip
Digital Signal Processing
Sustainable Energy Systems
Industrial Communication Systems
Smart Technologies for Power Management
Sensing and Imaging
Manufacturing Systems Management
Optional units listed in the following curriculum structures are all approved for delivery, but may not all run/be available in any one academic session.
Click below for unit information.
Advanced Control and Instrumentation
This unit provides an analysis of control system architectures, safety, security, sensors, actuators, hazards and reliability in the context of nuclear control and instrumentation engineering. It familiarises the learner with professional and ethical conduct within nuclear engineering including understanding and critical analysis of standards and regulatory requirements. Design, testing, maintenance and implementation of measurement and control systems are covered. The unit has been specifically designed for the learner currently working within the nuclear industry or for someone who wishes to do so.
MSc Engineering Project
This is a core unit for all MSc programmes within the School of Engineering. In their MSc project, the learner will develop a deep theoretical and practical understanding of a subject field within the engineering area of study. The learner will be supervised and supported by active research staff within the School of Engineering. The aim of the MSc project is to prepare the learner to take key positions in industry or to go on to further research based posts/studies within the Higher Education sector.
Likely Optional Units
Computer Engineering and CPU Design
This unit is about high performance computer engineering systems based on multicore, GPGPU and FPGA technologies. You will learn about the use of modern multi-core computer architecture and associated memory systems. You will learn how to develop the design of a processor using an Electronic Design Automation tool and how to design a computer engineering system for a high performance application such as finance, real time image processing, communication, etc.
Digital Signal Processing (30 credits)
This unit describes the application and implementation of digital signal processing (DSP) algorithms, and details emerging DSP technologies. It provides an understanding of theory and application of ADC/DAC conversion, sampling theorem, Fourier analysis, FFT, Wavelet analysis, signal compression, digital filters and DSP hardware implementation strategies. DSP is a core subject in electrical and electronic engineering. The learner will acquire not only the theoretical knowledge of such techniques but also the ability to implement them within a practical setting.
Embedded Systems and Systems on a Chip
This unit develops the learners understanding of the latest technology in Embedded Systems Design and System on Chip (SoC) methodology. The technology underpins modern IT, social media and the Internet of Things, that shape our communities and societies. This unit will develop the learners skills in mastering Verilog Hardware Description Language, commonly used FPGAs, latest development tools and advanced microprocessors including ARM. An in-depth knowledge of this material is highly sought after in the engineering sector.
Embedded Systems Development
Application oriented embedded system development using industry standard microcontrollers, FPGAs and system-on-a-chip methodology.
Industrial Communication Systems
This unit will develop the learners understanding of digital communication systems used within the automation industry. It will enhance the learners skills in the design, development and evaluation of fieldbus and Ethernet based communication systems, so dominant in modern industry. It engages the learner in good engineering practice in installing, testing and maintaining networked automation systems. The unit incorporates the required assessment to allow the learner to achieve Certified PROFIBUS, Certified PROFINET Engineer and Certified PLCopen Engineer qualifications, giving them an edge in the job market.
Industrial Control, Automation and Communication
The unit contains three parts:
- Fieldbus system architecture, components, protocols, and operation principles. State of the art engineering and diagnostic tools: their applications to system configuration, design and life-cycle maintenance. Design of production and machine networks (PROFIBUS systems and AS-i systems, etc).
- Industrial Ethernet Systems. Industrial Ethernet systems architecture, components, protocols, and operation principles. State of the art engineering and diagnostic tools: their applications to system configuration, design and life-cycle maintenance. Design of PROFINET systems.
- Object-oriented Automation Programming. Latest developments in automation programming: languages, engineering tools and integration with industrial communication systems. Design of a networked automation system using PROFIBUS and/or PROFINET.
The unit introduces some key aspects of management practice, developing the ability to assimilate and apply some basic concepts, tools and frameworks in organisational development, marketing, accounting and finance.
Manufacturing Systems Management
This unit enables the learner to demonstrate a practical and conceptual understanding of manufacturing systems tools and techniques. Learning to appreciate the value of management science in tacking complex decision making problems and develop conceptual knowledge on the development of product-service systems.
Sensing and Imaging
This unit is about the operation and application of imaging and sensing technologies. You will learn how the properties of the electromagnetic spectrum are used in sensing technologies and how to analyse the technological requirements and implementation strategies for imaging and sensing. You will learn how to apply sensing and imaging technologies to data acquisition in industry and academia.
Smart Technologies for Power Management
This unit focuses on intelligent and sustainable power management technologies both on the electrical grids and in buildings. Looking at the global energy consumption and the implications of the increased consumption on the environment, it discusses electrification of transport, communication systems, Internet of Things, M2M (Machine to Machine), smart metering, and other emerging technologies, and their role in sustainable energy management. The unit develops the learners knowledge in the design and practical aspects of sustainable power systems. It prepares the learner for a career in the power industry.
Sustainable Energy Systems
This unit focuses on the design of sustainable and renewable energy systems. It will enable the learner to understand the structure, operation and applications of various renewable power systems; wind to energy converters, photovoltaic (solar), energy storage, hydrogen fuel cells and the design of hybrid renewable energy systems. It also provides them with the knowledge and design tools required for todays renewable energy industry.
Sustainable Integrated Power Systems
This unit covers design and practical aspects of renewable power systems. Energy conversion technologies and the design of hybrid renewable energy systems are also covered. Reliability issues and life cycle calculation for the studied systems are also included.
Each programme of study that we offer undergoes an annual review to ensure an up-to-date curriculum supported by the latest online learning technology. In addition, we undertake a major review of the programme, normally at 6-yearly intervals, but this can take place at a more frequent interval where required. Applicants should note that the programme currently provided may be subject to change as a result of the review process. We only make changes where we consider it necessary to do so or where we feel that certain changes are in the best interests of students and to enhance the quality of provision. Occasionally, we have to make changes for reasons outside our control. Where there are changes which may materially affect the current programme content and/or structure, offer holders will be informed.
Assessment is though a combination of written reports, oral presentations, practical assignments and written examinations.
Additional Information About this Course
Due to professional body requirements, this course differs from standard University Assessment Regulations in that a minimum pass mark is required for each element of assessment.
Your studies are supported by a team of committed and enthusiastic teachers and researchers, experts in their chosen field. We also work with external professionals, many of whom are Manchester Met alumni, to enhance your learning and appreciation of the wider subject. Details of departmental staff can be found at: http://www.soe.mmu.ac.uk/our-staff/
Why study in Manchester?
Manchester and the wider North West region represent the largest centre for science and engineering outside of London and the South East. The city is the birthplace of the UK nuclear power and computer industries and home to Manchester Metropolitan University and The University of Manchester, which together form one of the largest academic campuses in the UK.
Manchester has a rich engineering history and has made a name for itself as home to a number of famous inventors and innovators over the last 200 years. It is the city where John Dalton developed atomic theory, where Ernest Rutherford first split the atom and where Charles Rolls met Henry Royce. This decade has already seen the city become a world-leader in materials research with the first isolation of graphene in 2010, which led to the Nobel Prize being awarded to the researchers involved.
Even with its pioneering past, there has never been a better time for science in Manchester than today. Manchester continues to be a key part of the UKs innovation infrastructure, leading the way in the commercialisation of knowledge and was selected as European City of Science 2016 by the EuroScience Open Forum.
Engineering employment in the North West is geographically concentrated around Greater Manchester and Lancashire, and accounts for around 10% of all engineering employment and organisations in Great Britain. Between 2010 and 2020, engineering companies in the UK are projected to have 2.74 million job openings where there will be a high demand for engineering skills in a variety of new and existing sectors. These include: advanced materials, aerospace, automotive, big data, biosciences, chemicals, creative industries, oil and gas, rail, renewables and space.
Why study at Manchester Metropolitan?
Manchester Metropolitan University is placed in the top 3% of global universities and is one of the largest science and engineering educators in the UK. You will be taught and supervised by research-active academic staff who are at the forefront of their specialist field and who will give you guidance throughout your studies and beyond.
Our engineering Masters courses are designed to meet the needs of an industry which looks to employ postgraduates who can learn independently and apply critical thinking to real-world problems. Many of the staff who teach in the School of Engineering also have experience of working in industry and have well-established links and contacts in their industry sector, ensuring your education and training is relevant to future employment.
The School of Engineering also hosts two commercial companies: ASCent(Automation Systems Centre) which provides support and training in instrumentation and control for local and national industry in the form of short courses, consultancy, feasibility studies and software development for control systems; and STATUS (Specialist Transport Advisory and Testing Utility Society) which was founded as a result of a number of collaborative ventures between the School of Engineering and companies in the specialist vehicle field.
Engineering facilities in the School are excellent and you will benefit from state-of-the-art engineering workshops and dedicated computational and physical laboratories, including a dedicated £4m heavy engineering workshop for research and teaching in surface engineering, materials and dynamics and a £3m building housing our specialist facilities for work on bioengineering, exercise science and genetics.
You will be taught in specialist teaching facilities in environmentally sustainable buildings that are amongst the best of any university in the UK. Our spacious lecture theatres and seminar rooms are equipped with the latest teaching and learning facilities. You will also have access to numerous study spaces connected group work areas and social spaces.
Enjoy everything Manchester has to offer
Manchester is one of the most extensive higher education centres in Europe and second only to London as the most popular city for students in the UK. Our city centre campus is perfectly placed for you to enjoy this unforgettable city. Our home, the John Dalton building, is just a few minutes walk from the retail and cultural heart of the city centre.
Manchester and the region are well served by motorways and reliable public transport, so other cities are within easy reach and London is only a two hour train ride away. Manchester International Airport is just 10 miles (16km) south of the city centre, with flights to a huge number of European and International destinations.
Living in Manchester
Manchester is world famous for its football, legendary music and a thriving arts and cultural scene with many museums, galleries and festivals to explore. The city is a hive of creativity and inspiration due to its rich industrial heritage and offers a vibrant and cosmopolitan quality of life. Thats why Manchester was voted UKs most liveable city in 2015.
Find out more about what Manchester has to offer.
Campus accommodation is available for postgraduate students. There are also a number of nearby districts and suburbs popular with students.
An international university
With an international student population of over 3,000, the University hosts students from over 120 countries and has a strong global presence. We are experts in teaching, enterprise and research, providing international students with the academic experience and professional support they need to achieve their goals.
We can provide support throughout the application process as well as opportunities to improve your English language skills before you begin your studies. You can find country-specific information about many international qualifications on the Universitys international website mmu.ac.uk/international.
Typical entry requirements
A minimum of 2:2 UK Honours degree in Physics, Mathematics, or a branch of Engineering is normally required. Equivalent EU/international qualifications are also accepted. Other professional qualifications or unclassified degrees in Engineering or Science disciplines may be considered on merit and/or with relevant professional experience.
International students please see mmu.ac.uk/international
Theres further information for international students on our international website if youre applying with non-UK qualifications.
There’s further information for international students on our international website if you’re applying with non-UK qualifications.
How do I apply for this course?
The quickest and most efficient way to apply for this course is to apply online. This way, you can also track your application at each stage of the process.
Apply online now
If you are unable to apply online, you can apply for full- and part-time taught courses by completing the postgraduate application form. There are exceptions for some professional courses – the course information on our on-line prospectus will give you more information in these cases.
Please note: to apply for this course, you only need to provide one reference.
Career options after the course
You may enter the nuclear industry and target specific roles that fit with your own expertise. Learning in current regulations and industry-standard practice in control and instrumentation could be transferred across a range of industries.
You will also be well placed to pursue an employment position with partners or further study through a PhD or an Engineering Doctorate.
Careers support is available from the moment you join us, throughout your time here, and for up to three years after the completion of your course. We have a range of services available through the School of Engineering and the University Careers Service including dedicated careers and employability advisors
Confirmation of Regulator
The Higher Education Funding Council for England is the principal regulator for the University.
This online prospectus provides an overview of our programmes of study and the University. We regularly update our online prospectus so that our published course information is accurate and up to date. Please note that our programmes are subject to review and development on an ongoing basis. Changes may sometimes be necessary. For example, to comply with the requirements of professional or accrediting bodies or as a result of student feedback or external examiners’ reports. We also need to ensure that our courses are dynamic and current and that the content and structure maintain academic standards and enhance the quality of the student experience.
Please check back to the online prospectus before making an application to us.
The provision of education by the University is subject to terms and conditions of enrollment and contract. The current Terms and Conditions Applicable to the provision of the University’s Educational Services are available online. When a student enrolls with us, their study and registration at the University will be governed by various regulations, policies and procedures. It is important that applicants/students familiarize themselves with our Terms and Conditions and the Key Contract Documents referred to within. Applicants will be provided with access to an up to date version at offer stage. This can be found within the Information for Offer Holders document.