• St Mary’s University, Twickenham Featured Masters Courses
  • Xi’an Jiaotong-Liverpool University Featured Masters Courses
  • New College of the Humanities Featured Masters Courses
  • University of Glasgow Featured Masters Courses
  • University of Derby Online Learning Featured Masters Courses
  • Coventry University Featured Masters Courses
  • Goldsmiths, University of London Featured Masters Courses
  • Cardiff University Featured Masters Courses
Middlesex University Featured Masters Courses
Cass Business School Featured Masters Courses
Ulster University Featured Masters Courses
Coventry University Featured Masters Courses
Northumbria University Featured Masters Courses
"nuclear" AND "power" AND…×
0 miles

Masters Degrees (Nuclear Power Engineering)

  • "nuclear" AND "power" AND "engineering" ×
  • clear all
Showing 1 to 15 of 52
Order by 
The aim of the MSc programme in Nuclear Engineering is to prepare engineers with the skills necessary to design, build and operate power generation plants, radioactive waste treatment plants, systems using radiation for industrial and medical applications, etc. Read more

Mission and goals

The aim of the MSc programme in Nuclear Engineering is to prepare engineers with the skills necessary to design, build and operate power generation plants, radioactive waste treatment plants, systems using radiation for industrial and medical applications, etc. The educational programme, therefore, gives emphasis to topics referring to energy applications, i.e. fission and fusion plants, nuclear fuel, materials and safety. Topics applied also in non-energy applications are accounted for, as in medical and industrial applications of radiation, material physics, plasma physics and nanotechnologies with a strong link to the nuclear field.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/nuclear-engineering/

Career opportunities

The graduates in Nuclear Engineering, thanks to the MSc multidisciplinary training, can easily be employed in the nuclear sector (e.g. industries operating in nuclear power plants design, construction and operation, in nuclear decommissioning and nuclear waste processing and disposal, in design and construction of radiation sources, in centers for nuclear fusion and high-energy physics), as well as in other areas such as the energy industry, the medical sector, the health, safety and environment sector (e.g. engineering companies, hospitals, consultancy and risk analysis firms) and also research centers and universities.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Nuclear_Engineering.pdf
In this Course emphasis is given to energetic applications, e.g. those referring to fission and fusion plants, the nuclear fuel, materials and safety. Also nonenergetic applications are accounted for, i.e. medical and industrial applications of radiation; radiation detection and measurements; nuclear electronics for radiation detection; radiochemistry; radiation protection and material physics, plasma physics and nanotechnologies with a strong link to their impact in the nuclear field. Graduates in Nuclear Engineering can find employment not only in the nuclear sector (industries operating in electro-nuclear power generation, nuclear plant dismantling, nuclear waste processing and disposal, design and construction of radiation sources, institutes and centers for nuclear fusion and high-energy physics), but also in other areas operating in the field of hightechnology, engineering companies, companies for industrial, medical and engineering advice, hospitals, companies for risk analysis, etc.

Subjects

1st year subjects
Fission reactor physics, nuclear measurements and instrumentation, nuclear plants, nuclear and industrial electronics, reliability safety and risk analysis, solid state physics.

2nd year subjects (subjects differentiated by three specializations)
- Nuclear plants
Nuclear technology and design, Applied Radiation Chemistry, Reliability, Safety and Risk Analysis A+B, Nuclear Material Physics. Fission Reactor Physics II + Radioactive Contaminants Transport, Statistical Physics.

- Nuclear Technology
Medical applications of radiation, Applied Radiation Chemistry, Nuclear technology and design, Reliability, Safety and Risk Analysis A+B, Nuclear material physics, Fission Reactor Physics II + Radioactive Contaminants Transport.

- Physics for Nuclear Systems
Subjects: Nuclear technology and design, Nuclear Material Physics, Medical applications of radiation, Applied Radiation Chemistry, Nuclear material physics, Fission Reactor Physics II + Radioactive Contaminants Transport.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/nuclear-engineering/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/nuclear-engineering/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

Read less
This interuniversity 'master after master' program (60 ECTS) is jointly organized by the Belgian Nuclear Higher Education Network (BNEN), a consortium of six Belgian universities. Read more

Organizing institutions

This interuniversity 'master after master' program (60 ECTS) is jointly organized by the Belgian Nuclear Higher Education Network (BNEN), a consortium of six Belgian universities: Vrije Universiteit Brussel, Katholieke Universiteit Leuven, Universiteit Gent, Université de Liège , Université Catholique de Louvain et Université Libre de Bruxelles and the Belgian Nuclear Research Centre (SCK-CEN). Students can enroll for this master program at each of the six partner universities. The program is built up of 31 ECTS of common compulsory courses, 9 ECTS of elective courses and a compulsory Master Thesis of 20 ECTS.

The primary objective of the programme is to educate young engineers in nuclear engineering and ts applications and to develop and maintain high-level nuclear competences in Belgium and abroad. BNEN catalyses networking between academia, research
centres, industry and other nuclear stakeholders. Courses are organised in English and in a modular way: teaching in blocks of one to three weeks for each course, allowing for optimal time management for professional students and facilitating registration for individual modules.
All courses take place at SCK•CEN, in Mol, Belgium. The lectures take place in a dedicated, brand-new classroom in the conference centre of SCK•CEN (Club-House), located in a wooded area and nearby the SCK•CEN restaurant and library services. SCK•CEN offers a variety of accommodation options: houses, villas, studios and dormitories. For more information visit: http://www.sckcen.be

About the programme

The one-year progamme was created in close collaboration with representatives of the utility companies and power plants and teaches students in all aspects of nuclear technology and its applications, creating nuclear engineering
experts in the broad sense. Exercises and hands-on sessions in the specialised laboratories of SCK•CEN complement the theoretical classes and strengthen the development of nuclear skills and attitudes in a research environment. Various technical visits
are organised to research and industrial nuclear facilities.
The programme can be divided into three core blocks:
ƒ- A set of introductory courses allowing refreshing or first contact with the basic notions of nuclear physics, material sciences and the
principles of energy production through use of nuclear phenomena.
ƒ- A core block of nuclear engineering applied to power generation and reactor use; theory of reactors and neutronics, thermal hydraulic problems encountered in reactor exploitation, the nuclear fuel cycle and the specific material corrosion problems.
-ƒ An applications block where safe and reliable operation of nuclear power plants and the legal and practical aspects of radiation protection and nuclear measurements are discussed.

Scholarships

BNEN grants are available for full-time students.

Curriculum

http://www.vub.ac.be/en/study/nuclear-engineering/programme

Nuclear energy: introduction 3 ECTS credits
Introduction to nuclear physics 3 ECTS
Nuclear materials I 3 ECTS
Nuclear fuel cycle and applied radiochemistry 3 ECTS
Nuclear materials II 3 ECTS
Nuclear reactor theory 8 ECTS
Nuclear thermal hydraulics 6 ECTS
Radiation protection and nuclear measurements 6 ECTS
Operation and control 3 ECTS
Reliability and safety 3 ECTS
Advanced courses 4 ECTS
Master thesis 15 ECTS
Total 60 ECTS

Read less
Supported by the Royal Academy of Engineering, this MSc in Civil Engineering Structures (Nuclear Power Plants) is the only accredited course in the UK in this critical area. Read more
Supported by the Royal Academy of Engineering, this MSc in Civil Engineering Structures (Nuclear Power Plants) is the only accredited course in the UK in this critical area.

Who is it for?

This course is for students interested in the structural aspects of nuclear power plants and the broader field of nuclear energy.

Objectives

In this programme, you will study how to design, evaluate, and analyse structural systems, with a special focus on Nuclear Power Plants. You will learn all the principles used for the design of buildings, bridges, special structures and in particular nuclear containment structures.

The emphasis on nuclear structures is a response to the skill shortage reported by employers working in this sector. The UK has recently committed to a long-term nuclear new-build programme that is forecast to generate more than 40,000 jobs, yet no specialised training is available in this area. The programme will therefore provide you with a degree that distinguishes you in the market.

The programme is offered on a one-year full-time or two-year part time basis to allow you maximum flexibility.

Teaching and learning

The course is taught by staff from the School of Mathematics, Computer Science and Engineering with some contribution from industrial experts. Teaching is mainly in the form of lectures, but case studies and IT sessions and seminars are also used where appropriate. Modules are shared between two ten-week teaching terms running October-December and January-March. Although work for the MSc dissertation commences during the second term, most of the research work is carried out during the summer months.

The duration of full-time study is 12 months. A part-time route is also available, where students spend two years completing this programme, in which students attend lectures for up to two days each week

Assessment of theoretical modules is based on a combination of examinations and coursework. Examinations are shared between the January and April/May examination periods. Design-oriented modules are normally assessed by coursework only, where students work both in groups and individually on challenging projects that are varied each year. For the MSc dissertation, students are required to attend a viva following submission of the final report.

In order to pass your programme, you should complete successfully or be exempted from the relevant modules and assessments and will therefore acquire the required number of credits.

The pass mark for each module is 50%. You need to attain a 50% mark for all assessment components.

Modules

There are seven core modules to be taken, plus one elective module, in addition to the research skills module and the dissertation. The number and credits required to gain an award are identified below.

For the following modules: EPM717, EPM711, EPM712, EPM707, EPM720, EPM718, coursework assignments will require you to apply the theory you have learned to specialised problems relating to the field of nuclear power plants. You are required to answer these problems to satisfy the coursework assessment for these modules.

Core modules
-EPM790: Introduction to Nuclear Energy (10 credits)
-EPM717: Advanced Analysis and Stability of Structures (20 credits)
-EPM704: Dynamics of Structures (15 credits)
-EPM711: Design of Concrete Structures (15 credits)
-EPM712: Design of Steel and Composite Structures (15 credits)
-EPM791: Design of Nuclear Structures and Foundations (15 credits)
-EPM707: Finite Element Methods (15 credits)
-EPM697: Research Skills (15 credits)
-EPM698: Dissertation (45 credits)

Elective modules
-EPM720: Earthquake Analysis of Structures (15 credits)
-EPM718: Analysis of Steel and Concrete Structures for Blast and Fire Exposure (15 credits)

Career prospects

This programme is for students interested in the structural aspects of nuclear power plants. Your career will take you to the broader field of nuclear energy. The types of roles we would expect our graduates to achieve are: an on-site engineer or as a design office engineer, building designing or constructing new plants or evaluating and maintaining existing plants or decommissioning plants at the end of their life cycle. You could also go to the research arena conducting innovative research in the area of nuclear science at research labs or in academia.

Read less
The MPhil in Nuclear Energy, provided by the Department in collaboration with the Cambridge Nuclear Energy Centre, is a one year full-time nuclear technology and business masters for engineers, mathematicians and scientists who wish to make a difference to the problems of climate change and energy security by developing nuclear power generation. Read more
The MPhil in Nuclear Energy, provided by the Department in collaboration with the Cambridge Nuclear Energy Centre, is a one year full-time nuclear technology and business masters for engineers, mathematicians and scientists who wish to make a difference to the problems of climate change and energy security by developing nuclear power generation. The combination of nuclear technology with nuclear policy and business makes the course highly relevant to the challenges of 21st century energy needs, whether in the UK or in countries across the globe.

The MPhil is part of the University of Cambridge's Strategic Energy Initiative in response to the prospect of a nuclear renaissance in the UK and around the world. The aim is to provide a masters-level degree course in Nuclear Energy which will combined nuclear science and technology topics with business, management and policy teaching. Students will be equipped with the skills and information essential to responsible leadership of the international global nuclear industry.

The course recognises that, though the prospects for nuclear energy are now better than they have been for twenty years, the nuclear sector is situated within in a wider market for energy technologies, and has no special right to be developed. The political, economic and social contexts for nuclear power are as important as the technical merits of the designs of reactors and systems. The course therefore has a multi-disciplinary emphasis, aiming to be true to the reality of policy-making and business decision-making.

This course is for students who have a good degree in Engineering or related science subject and who wish to gain the knowledge and skills to build a career in the nuclear and energy sectors. Secondary career paths might include nuclear proliferation prevention, radiological protection, nuclear governance, nuclear medicine and health physics. While the prime focus of the course is to equip students for roles in industry, there is a path towards research through preparation for a PhD programme. The modular open architecture of the course allows students to tailor the degree to suit their background, needs and preferences.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/egegmpmne

Course detail

The course will equip its graduates with a wide range of skills and knowledge, enabling them to fully engage in the nuclear sector.

Graduates will have developed a knowledge and understanding of nuclear technology, policy, safety and allied business. They will have received a thorough technical grounding in nuclear power generation, beginning with fundamental concepts and extending to a range of specialist topics. They will also be equipped with an appreciation of the wider social, political and environmental contexts of electricity generation in the 21st century, with a firm grounding in considering issues such as climate change, energy policy and public acceptability.

The programme will cultivate intellectual skills allowing graduates to engage with the business, policy and technical issues that the development and deployment of nuclear energy poses. These include skills in the modelling, simulation and experimental evaluation of nuclear energy systems; critically evaluating and finding alternative solutions to technical problems; applying professional engineering judgment to balance technological, environmental, ethical, economic and public policy considerations; working within an organisation to manage change effectively and respond to changing demand; understanding business practice in the areas of technology management, transfer and exploitation.

The programme will also develop transferable skills enabling graduates to work and progress in teams within and across the nuclear sector, including the management of time and information, the preparation of formal reports in a variety of styles, the deployment of critical reasoning and independent thinking.

Finally, graduates will have research experience having planned, executed, and evaluated an original investigative piece of work through a major dissertation.

Format

The MPhil in Nuclear Energy is based in the Department of Engineering and is run in partnership with Cambridge Judge Business School and the Departments of Materials Science and Metallurgy, and Earth Sciences.

The programme consists of six compuslory courses in nuclear technology and business management, and four elective courses chosen from a broad range of technical and management courses. These elective courses enable the student to tailor the content of the programme to his career needs; they range from wholly management-oriented courses to technical courses in preparation for an engineering role or further research through a PhD. A long research project is required, with topics chosen from a list offered by members of staffed and Industry Club members, and linked to the principal areas of energy research in their respective departments and companies.

Students are also expected to attend field visits, a Distinguished Lecture Series and weekly seminars, and are able to benefit from research skills training offered by the Department.

Assessment

A large individual research project will be undertaken, which will be examined in two parts. The first part will include a report (of up to 4,000 words) and a five-minute oral presentation. The second part is assessed through the writing of a 15,000 word dissertation, including a fifteen minute oral presentation.

All students will be required to complete at least four items of coursework.

All students will take at least three written examinations, of 1.5 hours each.

Continuing

Students wishing to apply for continuation to the PhD would normally be expected to attain an overall mark of 70%.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

UK applicants are eligible to apply for scholarships of £7,000; these scholarships are funded by the MPhil's industrial partners.

To apply for a scholarship, eligible applicants must list the Nuclear Energy Scholarship in Section B(4) of the online GRADSAF form. People wishing to be considered for a scholarship must submit their application before the end of May 2016.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

Read less
Effective use of renewable energy and improvements in the efficiency of power generation facilities will enable better energy management in the future and help reduce environmental impact. Read more

Why take this course?

Effective use of renewable energy and improvements in the efficiency of power generation facilities will enable better energy management in the future and help reduce environmental impact. This course responds to an urgent need for specialists in energy and power systems management, as well as a growing skills shortage of people with core knowledge in this field.

The course provides relevant, up-to-date skills that will equip both graduates and working professionals in the advanced concepts of sustainable electrical power and energy generation. It offers skills for operation, control, design, regulation and management of power systems and networks of the future. You will also receive training in and understanding of energy production, delivery, consumption and efficiency.

What will I experience?

On this course you will:

Benefit from experts in the industry who will deliver part of the course as visiting lecturers, bringing professional expertise and industry-relevant material
Be encouraged to reach a level of competence and professionalism where you can effectively integrate your technical and non-technical knowledge to solve a range of problems of a complex nature
Learn in a challenging and stimulating study environment
Develop a range of key skills by means of opportunities provided in the study units
Being an MSc course, you are encouraged and expected to be able to reach a level of competence and professionalism where you can effectively integrate your technical and non-technical knowledge to solve a range of problems of a complex nature.

What opportunities might it lead to?

The course will help to maximise your career potential in this field and equips you to work as an engineer, at an advanced level, in the fields of energy and power systems management.

Module Details

You will study several key topics and complete a four-month individual project in which you apply your knowledge to a significant, in-depth piece of analysis or design. Projects are tailored to your individual interests and may take place in our own laboratories or, by agreement, in industry. Experts from Industry (STS Nuclear) deliver part of the course as visiting lecturers, bringing professional expertise and industry-relevant material to the programme.

Here are the units you will study:

Power Systems Technology: This unit provides an in-depth overview of contemporary electrical power systems. It covers the elements of electrical power systems including generation, transmission and distribution in the mixed energy source paradigm.

Electrical Machines and drives: Provides an in-depth overview of the operational principles and physical design of DC and AC electrical machines as well as broad understanding of concepts of power electronics and power electronic converters, so that you can describe their application and selection criteria. You will develop an understanding of the issues present in converter design, including the impact of physical layout and heat dissipation.

Energy Systems: Focuses on the techniques and principles of operation of thermodynamics and combustion systems, as well as the provision and management of energy. It also focuses on power generation and combined systems, BioMass processers application of heat and fluid transfer.

Renewable and Alternative Energy: Provides an in-depth coverage of the principles of renewable and alternative energy systems: Winds, Solar, BioMass, Geothermal, Fuel Cells, Hydrogen Technologies and Nuclear Energy.

Nuclear Technology: A study of nuclear engineering including the theory of atomic and nuclear physics, methods and benefits of generating electricity from nuclear power plants, and the effects of ionising radiation. The nuclear fuel cycle and the associated environmental impacts are also considered. The development of international guidance on nuclear and radiological safety and a comparison of national regulatory structures are analysed. The importance of safety cultures, safety behaviours and safety cases is a key element throughout this module.

Energy Management: The unit is specifically designed to provide the students with the basic of economical analysis and evaluation of energy projects and asset management as well as risk and hazard assessment, comprising legislation, hazard identification and quantification, quantified risk analyses, methods of elimination/mitigation, economic appraisal of integrated renewable, and petroleum projects; with numerous pertinent case studies.

Programme Assessment

You will be taught through a mixture of lectures, seminars, tutorials (personal and academic), laboratory sessions and project work. The course has a strong practical emphasis and you will spend a significant amount of time in our Energy, Power systems and Electronic laboratories.

A range of assessment methods encourages a deeper understanding of engineering and allows you to develop your skills. Here’s how we assess your work:

Written examinations
Coursework
Laboratory-based project work
A major individual project/dissertation

Student Destinations

This course is designed to respond to a growing skills shortage of people with core knowledge in energy and power systems management. It is an excellent preparation for a successful career in this ever expanding and dynamic field.

On successful completion of the course, you will have gained the skills and knowledge that will make you attractive to a wide variety of employers with interests ranging from overall system design to the more detailed development of subsystems. You will acquire the ability to critically evaluate methodologies, analytical procedures and research methods in energy and power systems management and in the use of state-of-the-art computational tools, the design of sustainable electrical power systems and networks and regulatory frameworks. For practicing engineers with professional business experience, the course is an opportunity to update your knowledge of current design practice and also to familiarise themselves with developments in codes and methods of analysis.

Read less
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.

Read less
The growing demand for infrastructure to sustain modern societies and underpin economic and social development requires creative solutions from all engineering professionals. Read more
The growing demand for infrastructure to sustain modern societies and underpin economic and social development requires creative solutions from all engineering professionals. This course will give you the skills to shape and maintain the world around us.

You might be a graduate from our BSc (Hons) Civil Engineering course, or perhaps someone with a BEng qualification. We will help you move your career forward so you can play a leading role in the design, construction and maintenance of a broad range of infrastructure projects.

One of the key objectives of our course is preparing you for chartered status. We will develop your technical ability, understanding of engineering principles, commercial flair and environmental awareness. In addition, you'll look at contractual issues, health and safety, business functionality, communication skills, report writing, code of conduct and your responsibility to a team.

We are seeking Joint Board of Moderators (JBM) accreditation for Leeds based delivery, subject to final output, from Autumn 2013.

- Research Excellence Framework 2014: our University's results for the Architecture, Built Environment and Planning unit, which it entered for the first time, were impressive with 37% of its research being rated world leading or internationally excellent

Visit the website http://courses.leedsbeckett.ac.uk/civilengineering_msc

Mature Applicants

Our University welcomes applications from mature applicants who demonstrate academic potential. We usually require some evidence of recent academic study, for example completion of an access course, however recent relevant work experience may also be considered. Please note that for some of our professional courses all applicants will need to meet the specified entry criteria and in these cases work experience cannot be considered in lieu.

If you wish to apply through this route you should refer to our University Recognition of Prior Learning policy that is available on our website (http://www.leedsbeckett.ac.uk/studenthub/recognition-of-prior-learning.htm).

Please note that all applicants to our University are required to meet our standard English language requirement of GCSE grade C or equivalent, variations to this will be listed on the individual course entry requirements.

Careers

You will specialise in areas such as structures, transportation, water supply and treatment, power generation and supply, and your potential employers could include consultants, local authorities, central government, contractors and government agencies. If you're already working in the industry this is a chance to progress in your career by studying part-time to prepare yourself for applying for chartered status.

- Civil Engineer
- Design Engineer
- Project Engineer
- Structural Engineer

Careers advice:
The dedicated Jobs and Careers team offers expert advice and a host of resources to help you choose and gain employment. Whether you're in your first or final year, you can speak to members of staff from our Careers Office who can offer you advice from writing a CV to searching for jobs.

Visit the careers site - https://www.leedsbeckett.ac.uk/employability/jobs-careers-support.htm

Course Benefits

You'll have access to first-class teaching laboratories, including a full range of civil engineering testing equipment for hydraulics, geotechnics, highway materials, concrete, structures and general materials. Our civil engineering research facility - dedicated to the research work of students and staff - will be available to play a major role in your dissertation project.

We'll give you the opportunity to plan your own objectives for career development, setting up visits to sites and consultancy offices to aid your development - while engineering experts will share their expertise and experience in a series of guest talks. We'll also encourage you to research and discuss current civil engineering issues on a regular basis.

This is a very accessible course in which our teaching takes up only one afternoon and evening of your time.

Modules

Transportation Studies (20 Credits)
This module considers the analysis, design and maintenance of highways - you will study areas such as route location, geometrics, junction and pavement design, and management. You will also examine the design and operation of airports and railways.

Civil Engineering Management (20 Credits)
We will cover all the management and procedural considerations that go into the development and delivery of a civil engineering project. You'll develop an understanding of the legal and commercial frameworks that projects work with and build your confidence in making decisions based on qualitative and quantitative analysis.

Civil Engineering Professional Context (20 Credits)
This module examines the role of the civil engineer in society - such as responsibilities to society, the environment and economy - and the professional conduct expected of the role. The module will cover the requirements and processes for making a professional membership application.

Structural Analysis & Design (20 Credits)
You will gain a greater understanding of the engineering principles applied to the analysis and design of structures, giving you the skills and confidence to apply these techniques.

Fluid Mechanics & Water Engineering (20 Credits)
In this module you will focus on the properties of fluids and the principles of fluid mechanics, hydraulic modelling and fluid systems analysis. You will develop an understanding of the issues, problems and solutions within the water infrastructure sector of civil engineering.

Geotechnical Analysis & Design (20 Credits)
You will learn to produce complex engineering solutions to a professional standard. We will provide you with an in-depth understanding of engineering principles in relation to geotechnical analysis and design, looking at how to solve geotechnical engineering problems and produce innovative designs.

Materials Technology (20 Credits)
We will increase your understanding of the uncertainties and consequences of material behaviour during design, manufacture and in service. You'll study the environmental and safety implications of the materials used for nuclear power production.

Civil Engineering Dissertation (40 Credits)
This is an in-depth study of a topic relevant to civil engineering and that reflects your specific interests. This is an opportunity to apply and further enhance your research skills and technical knowledge.

Facilities

- Design Studios
Our modern multi-media studios include a dedicated CAD suite and specialist software, such as REVIT, allowing students to develop skills in 3D design and building information modelling.

- Library
Our libraries are two of the only university libraries in the UK open 24/7 every day of the year. However you like to study, the libraries have got you covered with group study, silent study, extensive e-learning resources and PC suites.

- Broadcasting Place
Broadcasting Place provides students with creative and contemporary learning environments, is packed with the latest technology and is a focal point for new and innovative thinking in the city.

Find out how to apply here - http://www.leedsbeckett.ac.uk/postgraduate/how-to-apply/

Read less
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. Read more
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.

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.

Assessment details

Assessment is though a combination of written reports, oral presentations, practical assignments and written examinations.

Read less
The Postgraduate Certificate in Nuclear Safety, Security and Safeguards is a unique course offering employees already working within the nuclear sector and assisting employer led provisions, a flexible course to fit in around their work patterns. Read more
The Postgraduate Certificate in Nuclear Safety, Security and Safeguards is a unique course offering employees already working within the nuclear sector and assisting employer led provisions, a flexible course to fit in around their work patterns. UCLan also encourages people from the general engineering sector to undertake this postgraduate course. This course develops an awareness of the planning and regulations related to nuclear safety and security projects. You will gain an understanding of theories and practical skills necessary to be responsible for the design, analysis and evaluation of Nuclear Safety and Security systems.

INDUSTRY LINKS

UCLan has developed strong relationships with nuclear employers which include Sellafield Ltd, National Nuclear Laboratory, BAE Systems at Barrow and Westinghouse Ltd.

LEARNING ENVIRONMENT AND ASSESSMENT

A variety of assessments including laboratory and field visit reports, project reports and presentations to test the ability and knowledge in specific nuclear safety and security projects. The programme offers modular delivery and will include lectures, seminars and visits to nuclear sites. Six modules will be delivered by blended methodology to achieve award with two optional modules in both safety-related and security-related elements. Upon completion the student will receive 120 credits.

FURTHER INFORMATION

The course will be taught at the UCLan Preston City Campus. It may incorporate visits to nuclear installations with simulation time to demonstrate the key nuclear safety characteristics of a nuclear facility; this will be subject to satisfactory security clearance from the nuclear industry.

The nuclear industry will continue to provide a significant proportion of the UK's energy needs over the next ten years and this percentage will increase as new nuclear power stations come on stream at the end of this decade and beyond. It is hoped that PG Dip Nuclear Safety, Security and Safeguards will enhance your career potential, personal and professional effectiveness and performance in employment, and assist you in making a positive and sustained contribution to your wider community.

Read less
The University Network of Excellence in Nuclear Engineering (UNENE), created through the partnership of three leading Ontario universities, namely, McMaster University, University of Waterloo, and Western, presents a unique, innovative learning experience through a Master's Degree Program in Nuclear Engineering Design with emphasis on nuclear power reactor technology. Read more
The University Network of Excellence in Nuclear Engineering (UNENE), created through the partnership of three leading Ontario universities, namely, McMaster University, University of Waterloo, and Western, presents a unique, innovative learning experience through a Master's Degree Program in Nuclear Engineering Design with emphasis on nuclear power reactor technology. UNENE is an alliance of universities, nuclear power utilities, research and regulatory agencies for the support and development of nuclear education, research and development capability in Canadian universities.

The educational component is in the form of an M. Eng program mainly catering for working professionals by being offered on weekends and using distance learning tools. Where feasible, courses are presented at nuclear industry sites for the convenience of the students. The program is designed to enhance industrial instructors and the educational materials of the partner firms.

Visit the website: http://grad.uwo.ca/prospective_students/programs/program_NEW.cfm?p=105

How to apply

For information on how to apply, please see: http://grad.uwo.ca/prospective_students/applying/index.html

Financing your studies

As one of Canada's leading research institutions, we place great importance on helping you finance your education. It is crucial that you devote your full energy to the successful completion of your studies, so we want to ensure that stable funding is available to you.
For information please see: http://grad.uwo.ca/current_students/student_finances/index.html

Read less
This new course considers aspects of sustainable energy generation as well the issues concerned with bulk electrical energy transport to the ultimate user. Read more

Course Summary

This new course considers aspects of sustainable energy generation as well the issues concerned with bulk electrical energy transport to the ultimate user. In order to design and develop our future energy networks, we need knowledge and understanding of the current infrastructure, and therefore this course will provide a solid grounding in generation, transmission and distribution engineering in addition to considering the wider issues of energy, renewable generation and sustainability.

The course is particularly relevant for students considering a career in the electrical power industry. It is designed to meet a growing specific industrial need – the development of future power engineers capable of meeting the challenge of providing secure sustainable energy to consumers in the mot efficient and cost-effective way possible.

Modules

Semester one: Power Systems Analysis; Power Generation - Technology and Impact on Society; Transmission and Distribution; Fundamental Principles of Energy

Semester two: Advanced Electrical Materials; High Voltage Insulation Systems; Power Electronics for DC Transmission; Mechanical Power Transmission / Vibrations; Green Electronics; Nuclear Energy Technology; Renewable Energy from Environmental Flows; Bioenergy; Energy Resources and the Environment

Visit our website for further information...



Read less
The Masters in Physics. Nuclear Technology provides an understanding of the application of nuclear processes and technology to energy generation, medical physics and environmental monitoring, and at a level appropriate for a professional physicist. Read more
The Masters in Physics: Nuclear Technology provides an understanding of the application of nuclear processes and technology to energy generation, medical physics and environmental monitoring, and at a level appropriate for a professional physicist.

Why this programme

◾Physics and Astronomy at the University of Glasgow is ranked 3rd in Scotland (Complete University Guide 2017).
◾You will gain theoretical, experimental and computational skills necessary to analyse and solve advanced physics problems relevant to the theme of Nuclear Technology, providing an excellent foundation for a career of scientific leadership.
◾You will benefit from direct contact with our group of international experts who will teach you cutting-edge physics and supervise your projects.
◾With a 93% overall student satisfaction in the National Student Survey 2016, Physics and Astronomy at Glasgow continues to meet student expectations combining both teaching excellence and a supportive learning environment.
◾This programme has a September and January intake*.

*For suitably qualified candidates

Programme structure

Modes of delivery of the MSc Physics: Nuclear Technology include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work.

Core courses include
◾Advanced data analysis
◾Detection and analysis of ionising radiation
◾Environmental radioactivity
◾Imaging and detectors
◾Nuclear power reactors
◾Research skills
◾Extended project

Optional courses include
◾Advanced electromagnetic theory
◾Advanced nuclear physics
◾Computational physics laboratory
◾Dynamics, electrodynamics and relativity
◾Energy and environment
◾Medical imaging
◾Nuclear and particle physics
◾Relativistic quantum fields
◾Statistical mechanics

The programme in Physics: Nuclear technology lasts 1 year and contains a minimum of 180 credits. You will undertake a minimum of 120 credits in Semesters 1 and 2 and be assessed on these courses either via continuous assessment, or unseen examination in the May/June examination diet, or a combination thereof. The remaining 60 credits will take the form of an extended MSc project, carried out on a specific aspect of theoretical, computational or experimental physics which has current or potential application in the areas of nuclear technology, nuclear energy, radiation detection or environmental monitoring. You will conduct this project while embedded within a particular research group – under the direct supervision of a member of academic staff.

Your curriculum will be flexible and tailored to your prior experience and expertise, particular research interests and specific nature of the extended research project topic provisionally identified at the beginning of the MSc programme. Generally, however, courses taken in Semester 1 will focus on building core theoretical and experimental/computational skills relevant to the global challenge theme, while courses taken in Semester 2 will build key research skills (in preparation for the extended project).

For further information on the content of individual courses please see Honours and Masters level courses.

Career prospects

Career opportunities in academic research, based in universities, research institutes, observatories and laboratory facilities; industrial research in a wide range of fields including energy and the environmental sector, IT and semiconductors, optics and lasers, materials science, telecommunications, engineering; banking and commerce; higher education.

Read less
Studying this postgraduate course, will enable students to evaluate the complex environmental, social and economic impacts of Nuclear Security projects, and to critically assess and respond to policy and regulation frameworks. Read more
Studying this postgraduate course, will enable students to evaluate the complex environmental, social and economic impacts of Nuclear Security projects, and to critically assess and respond to policy and regulation frameworks. You will develop a knowledge and awareness of the planning and regulations related to Nuclear Security projects. The nuclear industry will continue to provide a significant proportion of the UK's energy needs over the next ten years and this percentage will increase as new nuclear power stations come on stream at the end of this decade and beyond. As a result, the Postgraduate Certificate in Nuclear Security and Safeguards has been uniquely designed and is delivered from a UCLan campus, offering employees already working within the sector and assisting employer led provisions, a flexible programme to fit in around their work patterns. Access to those people from the general engineering sector is also being encouraged.

INDUSTRY LINKS

UCLan has developed strong relationships with nuclear employers which include Sellafield Ltd, National Nuclear Laboratory, BAE Systems at Barrow and Westinghouse Ltd.

FURTHER INFORMATION

A variety of assessments including laboratory and field visit reports, and project reports and presentations to test the ability and knowledge in specific nuclear security projects. The programme offers modular delivery and will include lectures, seminars and visits to nuclear sites. Four modules available are delivered by blended methodology; only three are required for the award, Upon completion the student will receive 60 credits.

Read less
This course is aimed at a new generation of engineers with the intention of ensuring they are equipped with specific training to satisfy the demands of the nuclear industry. Read more
This course is aimed at a new generation of engineers with the intention of ensuring they are equipped with specific training to satisfy the demands of the nuclear industry.

The course will cover all major aspects of the nuclear industry, from the design and build of nuclear power stations and their operations through to decommissioning and final disposal.

The course is multidisciplinary with core courses taught by research leaders from departments across the Faculty of Engineering, with expertise unique to the UK from our Reactor Centre staff at the Silwood Park Campus who operate the CONSORT test reactor.

Read less
This postgraduate course will develop an awareness of the planning and regulations related to Nuclear Safety, Security and Safeguards projects. Read more
This postgraduate course will develop an awareness of the planning and regulations related to Nuclear Safety, Security and Safeguards projects. The nuclear industry will continue to provide a significant proportion of the UK's energy needs over the next ten years and this percentage will increase as new nuclear power stations come on stream at the end of this decade and beyond. As a result, the MSc Nuclear Safety, Security and Safeguards course has been developed directly in line with recent Government plans for higher education institutions to work closely with niche industries; developing customised programmes and building relationships with employers. The course is uniquely designed and is delivered from a UCLan campus, offering employees already working within the sector and assisting employer led provisions, a flexible programme to fit in around their work patterns. Access to those people from the general engineering sector is also being encouraged.

FURTHER INFORMATION

The course will be taught at the UCLan Preston City Campus. It will include a visit to a nuclear reactor or a nuclear fuel manufacturing plant, subject to obtaining security clearance from the nuclear regulator.

INDUSTRY LINKS

UCLan has developed strong relationships with the nuclear industry and supply chain, including Sellafield Ltd, National Nuclear Laboratory, BAE Systems at Barrow, Westinghouse, Atkins, AMEC and Studsvik.

Read less

Show 10 15 30 per page



Cookie Policy    X