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Engineering×

University of Nottingham, Full Time Masters Degrees in Engineering

We have 27 University of Nottingham, Full Time Masters Degrees in Engineering

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Structural engineers are required to design structures to be safe for their users and to successfully fulfill the function for which they have been designed for. Read more
Structural engineers are required to design structures to be safe for their users and to successfully fulfill the function for which they have been designed for. This course allows for specialisation in the field of structural engineering. An introduction into the broader civil engineering subjects will be followed by a choice of specialised optional modules on your chosen theme.

The course will concentrate on the technical knowledge and skills that are most relevant to the field of structural engineering for the award of MSc in Civil Engineering: Structural Engineering.

Students will develop:
the ability to communicate ideas effectively in written reports, verbally and by means of presentations to groups
the ability to exercise original thought
the ability to plan and undertake an individual project
interpersonal, communication and professional skills

Previous projects have included:
Wind tunnel testing for tall buildings
Base isolation for reducing ground-borne vibration
The effect on ordinary and high strength concrete columns when introducing bar chip polypropylene fibres

Scholarship information can be found at http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

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MSc. This MSc is designed to provide instruction and training in the most recent developments in equipment and systems used to interface and control renewable and sustainable energy systems. Read more
MSc:

This MSc is designed to provide instruction and training in the most recent developments in equipment and systems used to interface and control renewable and sustainable energy systems. The course provides essential knowledge both for electrical
engineers wanting to work within the renewable energy systems industry, and for engineers planning a research career in the field.

Students will develop:
advanced and comprehensive knowledge of the specialist
engineering skills required by an engineer working in this field
the ability to plan and undertake an individual project
interpersonal, communication and professional skills
the ability to communicate ideas effectively in written reports
the technical knowledge and skills to equip them for a leading career in engineering for renewable and sustainable energy technologies, electrical engineering and power engineering
the ability to design, analyse and evaluate hardware and software aspects of renewable and energy efficient power systems
decision making powers in relation to the specification and solution of power electronics, power systems and electrical
engineering problems for appropriate renewable and sustainable energy technologies

Following the successful completion of the taught modules, an individual research project is undertaken during the summer term.

Previous research projects on this course have included:
the design of a DC-DC voltage convertor with maximum power tracking for a photovoltaic module
electrical modelling of a PEM fuel Cell
microprocessor based control of a wind turbine generator
optimisation of the operation of a renewable energy micro grid

Scholarship information can be found at http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

PGDip:

The Postgraduate Diploma Electrical Engineering for Sustainable and Renewable Energy is designed to provide instruction and training in the most recent developments in the equipment and systems used to interface and control renewable and sustainable energy systems.

This knowledge is essential both for an engineer wanting to work in research and development in electrical engineering for renewable energy systems in industry. The course will give you an advanced and comprehensive coverage of the specialist engineering skills required by an engineer working in electrical technology for renewable and sustainable energy systems.

Key facts

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Civil engineering problems require the application of analytical, decision making and critical thinking skills - this course will provide students with the technical knowledge and skills needed to develop these skills. Read more
Civil engineering problems require the application of analytical, decision making and critical thinking skills - this course will provide students with the technical knowledge and skills needed to develop these skills. It will also equip students with a range of transferable skills; an ideal combination for a leading career in Civil Engineering.

The MSc in Civil Engineering provides a comprehensive programme of study across a range of subject areas. You may prefer to opt for a more specialised approach by adopting a subject theme and choosing specific modules in the first two semesters with a research project related to the theme.

You may choose from the following subject themes:
Geotechnical Engineering
Management
Pavement Engineering
Structural Engineering
Transportation
Environmental Fluid Mechanics

Students will develop:
the ability to communicate ideas effectively in written reports, verbally and by means of presentations to groups
the ability to exercise original thought
the ability to plan and undertake an individual project
interpersonal, communication and professional skills

Previous research projects have included:
Weather impact on construction schedules
Predicted future climate change trends
The use and abuse of GPS in current UK survey practices
The utilization of laser scanning system for examination and monitoring of tunnel deformation and structural integrity
Life cycle assessment of the M25 highway widening scheme

This degree is accredited by the as meeting the requirements for Further Learning as a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng (Hons) Undergraduate first degree.

This course is also taught at The University of Nottingham's Malaysia Campus

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The programme provides advanced studies in chemical engineering, reflecting the research expertise and scholarship within the Department of Chemical & Environmental Engineering. Read more
The programme provides advanced studies in chemical engineering, reflecting the research expertise and scholarship within the Department of Chemical & Environmental Engineering. Relevance to industry is a strong feature of this course which offers a unique combination of science and engineering skills.

It offers graduates with a Bachelor level (BEng) accredited degree the further learning requirement for chartership. The department provides a strong and dynamic environment with close links between research and teaching. Students on this programme will be able to think and function in an integrated manner across the area of chemical engineering.

This course is accredited by the Chartered Institute of Chemical Engineers( IChemE) and is designed to meet the UK-SPEC requirements of IChemE for those students who already hold BEng, BSc or non-accredited chemical engineering degree and wish to proceed to chartered status.

You will gain skills in advanced engineering practice, which includes design, operations, problem-solving and practical elements. The advanced practice is centred on themes in energy and environmental applications, so you can gain significant experience in areas such as petroleum processing, energy efficiency, carbon capture and water treatment.

Students will develop:
skills in research, project management, problem solving and reporting
ability to communicate ideas effectively in written reports, verbally and by means of presentations to groups
ability to exercise original thought
ability to plan and undertake an individual project
interpersonal communication and professional skills

Previous research projects have included:

Electricity Storage
Microwave Processing of Hydrocarbons
Novel Mineral Traps to permanently sequester CO2
Application of advanced measurement techniques to bubble columns


Scholarship information can be found at /http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

This course is also taught at The University of Nottingham Malaysia Campus

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The MSc in Electrical and Electronic Engineering allows for study of a variety of topics including electronic design, communications, software engineering, power generation and distribution, electrical machines and renewable energy systems. Read more
The MSc in Electrical and Electronic Engineering allows for study of a variety of topics including electronic design, communications, software engineering, power generation and distribution, electrical machines and renewable energy systems. The course delivers broad-based understanding of the art of electrical and electronic engineering and an in-depth study of topics covering modern technology for electrical and electronic engineering.

Students will gain experience of the types of problem encountered by academic and industrial researchers.

This course is suitable for graduates closely related disciplines who wish to convert to electrical and electronic engineering.

Students will:

develop problem solving skills
become competent users of relevant equipment and software
develop ability to think logically and critically
develop a thorough understanding of current practice and its limitations and appreciation of likely new development
develop design skills and methodologies relevant to a variety of
electrical and electronic systems, circuits and models and gain
experience of dealing with the challenges encountered by
academic and industrial researchers

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MSc. This MSc provides advanced training in Electronics, Communications and Computer Engineering. Read more
MSc:

This MSc provides advanced training in Electronics, Communications and Computer Engineering. It will give students a comprehensive coverage of the skills required by an engineer working in instrumentation, electronic systems, wireless and wired telecommunications, computer hardware, and software aspects of computer engineering.

The course provides an excellent basis for engineers wishing to update their knowledge, students who wish to go on to do research, or for first degree students wishing to enhance their training.

Students will develop:
the design, analytical and critical powers in relation to hardware and software aspects of complex electronic systems
the ability to plan and undertake an individual project
interpersonal, communication and professional skills
the ability to communicate ideas effectively in written reports
decision making powers in relation to the specification and solution of embedded system design, system-on-chip (SoC) and electronic engineering problems for appropriate
electronic systems and computer systems

Following the successful completion of the taught modules, an individual research project is undertaken during the summer term.

Previous research projects on this course have included:
FPGA implementation of the optimized SIFT Algorithm for an image matcher
Zigbee-Based generic wireless data acquisition systems
Digital pulse position modulation for free space optical communication

Please see the school web pages for further details of the PG Dip course.

Scholarship information can be found at http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

PGDip:

This Postgraduate Diploma provides advanced training in electronics, communications and computer engineering.

The course aims to provide you with a comprehensive coverage of the skills required by an engineer working in instrumentation, electronic systems, wireless and wired telecommunications, computer hardware, and software aspects of computer engineering.

The programme provides an excellent basis for engineers wishing to update their knowledge, or for first degree students wishing to enhance their training.

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This course provides the opportunity to obtain the skills required to develop and commercialise new technologies in Electrical and Electronic Engineering. Read more
This course provides the opportunity to obtain the skills required to develop and commercialise new technologies in Electrical and Electronic Engineering. Students will have an invaluable chance to work with experts in both engineering and business, providing an excellent basis for those engineers who wish to commercialise their ideas or graduates who wish to develop their knowledge of management and entrepreneurship in a high tech environment.

The course brings together strengths and resources from of both the Department of Electrical and Electronic Engineering and the Nottingham University Business school. As will have invaluable chance to experience the steps necessary to commercialise a technical idea, this programme provides an excellent basis for the engineers who wish to commercialise their ideas or graduates who wish to explore the exciting world of commercialisation.

The course provides an excellent basis for engineers who wish to update their knowledge in this area, or students/engineers who wish to go on to do research or study for a PhD degree, as well as first degree students who would like to enhance their training.

Students will develop:
the skills required to develop and commercialise new technologies in electrical and electronic engineering
the ability to plan and undertake a research project and work in a team environment
interpersonal, communication and professional skills
the ability to communicate ideas effectively in written reports
an awareness of contemporary problems in the fields of Electrical and Electronic Engineering and both present and futuristic approaches to their solutions

Following the successful completion of the taught modules, a group research project is undertaken during the summer term.
The project will demand the completion of a major piece of commercialisation work on an advanced technical topic.

Previous research projects on this course have included:
Industrial cure monitoring in the automobile and aerospace industries
Assessment of market potential for embedded ultrasonic sensors for structural health monitoring
Commercial opportunity for novel capsule endoscopes
Commercial assessment of portable laser Doppler blood flow monitors

Scholarship information can be found at http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

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This course has two distinct streams; Sustainable Highways and Sustainable Railways. Highway engineering is concerned with the planning, design, construction, maintenance and operation of highways, including vehicular, cycle and pedestrian highways and with their effective management. Read more
This course has two distinct streams; Sustainable Highways and Sustainable Railways.

Highway engineering is concerned with the planning, design, construction, maintenance and operation of highways, including vehicular, cycle and pedestrian highways and with their effective management. All this must be achieved as sustainably as possible.

Railway engineering is concerned with the planning, design, construction, maintenance and operation of railways, extending to rapid transit (tram) systems, and with their effective management. All this must be achieved as sustainably as possible.

Both of the streams within this MSc programme take a radical, hands-on approach by linking traditional teaching intimately to near-real life highway and railway engineering problems. It provides the technical knowledge and skills to develop the analytical, decision-making and critical powers required to solve, in a sustainable way, genuine, practical highway and railway engineering problems. It will help you to develop transferable skills which could lead to a successful career in highway or railway engineering.

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This course aims to provide a broad-based understanding of the subject and then a study of in-depth topics covering modern technology for Power Systems, Power Electronics and related subjects. Read more
This course aims to provide a broad-based understanding of the subject and then a study of in-depth topics covering modern technology for Power Systems, Power Electronics and related subjects. It will prepare students for a career as a professional engineer working in research, design or industrial applications.

The modular structure of the MSc in Electrical Engineering offers students a great deal of flexibility, allowing them to choose the
modules that most reflect their interests and feed into their research project. The modules cover the following subjects; power electronics, drives, power systems (including distributed generation and wind power), design of single and multi-variable control systems, motor and generator design, instrumentation and measurement. This course is suitable for graduates of related disciplines who wish to convert to electrical engineering.

Students will develop:
up-to-date knowledge of electrical engineering, including design and modelling techniques and applications
the ability to plan and undertake an individual project
interpersonal, communication and professional skills
the ability to communicate ideas effectively in written reports
the technical skills to equip them for a leading career in electrical engineering, especially in the areas of power electronics, power systems, electrical machines and control

Following the successful completion of the taught modules, an individual research project is undertaken during the summer term.

Previous research projects on this course have included:
Modular converter topologies for power system applications
Predictive control for an uninterruptable power supply
Power systems stability enhancement using Static Converter (STATCOM)
Sensorless permanent magnet motor drives for more electric aircraft applications

Scholarship information can be found at http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

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The MSc in Mechanical Engineering provides a broad base in engineering science and technology, with specialist streams in Automotive, Aerospace, Bioengineering, Materials and Manufacturing. Read more
The MSc in Mechanical Engineering provides a broad base in engineering science and technology, with specialist streams in Automotive, Aerospace, Bioengineering, Materials and Manufacturing.

These streams reflect our research strengths and strong industrial links, so modules are delivered by international experts in their fields.

All students take Advanced Technology Review to study the latest developments in engineering research. Other subjects studied depend on the chosen stream, and include Internal Combustion Engines, Aircraft Propulsion, Biomechanics, Fibre Reinforced Composites and Robotics.
Optional groups allow students to develop their interests in specific areas of science and technology.

Taught modules are followed by a full-time individual project, often linked to industrially sponsored research.


To apply for the course go to https://pgapps.nottingham.ac.uk/

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The MSc Environmental Engineering course provides highly employable graduates who will act as managers and leaders serving the environmental needs of the process industries. Read more
The MSc Environmental Engineering course provides highly employable graduates who will act as managers and leaders serving the environmental needs of the process industries.

The scale of modern industralisation has given rise to environmental problems of unprecedented complexity. This MSc examines environmental problems like toxic waste, air pollution, waste disposal, global warming, contaminated land and water. The challenge for today’s environmental engineers is to manage these problems through a high level of resource management and technological innovation.

Today’s environmental problems require innovation in improvements to manufacturing processes and in the utilisation
of natural resources. Both the assessment and management of the effects of natural and human activity on the natural and built
environment are examined in this course. The course demands a high level of resource management and is designed to enable graduates to work across the interface between engineering and the environment.

Students will develop:
a solid understanding of existing technology and its application, and an appreciation of the economic, legal, social and ethical aspects of the problems presented
skills in research, project management, problem solving and reporting
the ability to communicate ideas effectively in written reports, verbally and by means of presentations to groups
the ability to exercise original thought
the ability to plan and undertake an individual project
the ability to understand and apply the theory, method and
practice of environmental engineering
interpersonal communication and professional skill

Previous research projects have included:
assessment of energy crops for combined heat and power systems
bio-diesel process optimisation
microbial Fuel Cells
nanobots for contaminated land remediation
metal contamination of lakes near Nottingham
starch nanoparticles for water treatment
renewable energy at point of consumption

Scholarship information can be found at http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

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The course will offer an opportunity for students to study modern ground, mobile and airborne engineering surveying techniques. Satellite positioning technology and the sciences and technologies of remote measurement including photogrammetry, total stations and laser scanning, are still developing rapidly. Read more
The course will offer an opportunity for students to study modern ground, mobile and airborne engineering surveying techniques. Satellite positioning technology and the sciences and technologies of remote measurement including photogrammetry, total stations and laser scanning, are still developing rapidly. These primary data collection techniques with supporting subjects such as aspects of geodesy all form part of this course. The generation of traditional map information as well as 3D surface models and landscapes are covered. The course introduces data and information management, data integration and fusion, spatial analysis and visualisation through GIS and a range of modelling methods and software’s.

This course provides the opportunity to develop a knowledge and in depth of understanding of surveying practise and underpinning theory with an emphasis on geographical information science. Student will have an opportunity to develop practical skills, experience and a deeper understanding of the subject through some major practical tasks and modules

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A manufacturing engineer produces high quality goods using the most cost effective methods while being conscious of any environmental impacts. Read more
A manufacturing engineer produces high quality goods using the most cost effective methods while being conscious of any environmental impacts. They need to be both analytical and creative, be able to work on their own intiative but also as part of a multi-displinary team. This course demonstrates how advanced manufacturing technology and operations management are integrated to improve productivity, reduce the costs of manufacture, and the delivery of products and services can be ensured.

The course covers many aspects of Industrial Engineering and Industrial Management. The wide range of optional modules will enable you to develop your interests in specific areas of technology including flexible manufacturing, rapid product development, and process capability, operations management including quality and supply chain management and also ergonomics and human factors.

Students will develop: the ability to communicate ideas effectively in written reports, verbally and by means of presentations to groups knowledge and understanding of industrial methods and the needs of manufacturing industries the ability to plan and undertake an individual project interpersonal, communication and professional skills.

Previous projects have included:
Evaluation of micromachining systems
Design for microassembly
Laser deposition in manufacturing
Lean applications in a local aeroengine manufacturer
Production of AI/TiC metal matrix composites
Electrical Discharge Machining Study of a machining allow for Aerospace Applications
Design of an innovative holding device for enabling the walking of a free-leg hexapod

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This MSc is part of the Midlands Energy Graduate School (MEGS), a partnership between the universities of Nottingham, Birmingham and Loughborough. Read more
This MSc is part of the Midlands Energy Graduate School (MEGS), a partnership between the universities of Nottingham, Birmingham and Loughborough. Most modules taught by the universities of Nottingham and Loughborough are available either via state-of-the-art video-conferencing facilities, so students do not usually need to attend the other university in person. However, should any student wish to travel to partake directly in some lectures, advice can be provided on appropriate travel and accommodation.
Many of the core modules are delivered in one-week intensive blocks. Coupled with the major research project, the core modules will promote enquiry-based learning which will be supplemented by a range of optional technical and contextual/managerial modules.

Before you apply

You must be sure of the university within the MEGS consortium that you wish to study this MSc before you make an application. This will be dependent on the type of research project you are most interested in, you will apply to the university where you wish to undertake your research project.

We will help you asses which university is the most appropriate based on the above. Please contact the course director Dr Cheng-gong Sun, providing your degree subject and university and an outline of the fossil energy topics that interest you, we will then get back to you to advise where your application should be submitted.

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This course is designed to provide a high level of engineering and technical expertise in energy conversion processes, combined with the application of practical abilities in management-related issues. Read more
This course is designed to provide a high level of engineering and technical expertise in energy conversion processes, combined with the application of practical abilities in management-related issues. The course puts a strong emphasis on the context of renewable and sustainable energy technologies and the built environment, and combines this with effective management skills, economic appraisal, and an understanding of the current policies and regulations that are applicable at UK, EU and international level.

This course is tailored towards graduates in engineering, science and related disciplines. The strong emphasis on science, technology and engineering is specifically targeted towards subject areas within the context renewable and sustainable technologies and the built environment and uniquely combines this with effective management skills, economic appraisal and an understanding of the current policies and regulations that can be applied within modern industry in the UK, EU and internationally.

Advanced study in engineering-related research methodologies provides invaluable experience either towards further academic
study or industry-based research and development.

Students will develop:
the ability to communicate ideas effectively in written reports, verbally and by means of presentations to groups
the ability to exercise original thought
the ability to plan and undertake an individual project
interpersonal, communication and professional skills

Students on the course will cover all forms of energy conversion including cooling technologies, renewable energy technologies, combustion & biomass, advanced heat transfer and fuel cell technology. The course also includes practical subjects such as management & UK/EU/International regulations & policy, research methodologies, economic appraisal, CFD and materials science. The introduction of this course coincides with the huge demand for young, highly trained engineers who have strong enthusiasm for sustainability and the environment. This MSc can be used to gain full Chartered Engineer (CEng) status as appropriate.

Previous research projects have included:

a comparision study of solar Photo Voltaic (PV) & wind turbine power generation for domestic application
a feasibility study of PCM impregnated carbon composites
CO2 capture & storage by mineralisation of waste aggregates
simulation of an integrated CHP/ground source heat pump system for a library

This course is fully accredited by the Chartered Institute of Building Services Engineers (CIBSE) and Engineering Council UK (ECUK).

Scholarship information can be found at http://www.nottingham.ac.uk/graduateschool/funding/index.aspx

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