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Masters Degrees (Nuclear Waste Management)

We have 19 Masters Degrees (Nuclear Waste Management)

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Nuclear technology plays a crucial role in a wide variety of contexts and sectors in Belgium, including power production, waste management, nuclear fuel production, etc. Read more

Nuclear technology plays a crucial role in a wide variety of contexts and sectors in Belgium, including power production, waste management, nuclear fuel production, etc. The Belgian Nuclear Higher Education Network (BNEN) combines the expertise in nuclear education and research of six major Belgian universities (KU Leuven, UGent, VUB, UCL, ULG and ULB) with the Belgian Nuclear Research Centre SCK-CEN.

What is the Master of Nuclear Engineering about? 

Nuclear technology plays a crucial role in a wide variety of contexts and sectors in Belgium, including:

  • power production
  • nuclear fuel production
  • radioelement production
  • engineering
  • accelerator design and fabrication
  • waste management
  • safety management
  • nuclear medicine
  • research

 The Belgium Nuclear Higher Education Network combines the expertise in nuclear education and research of six major Belgian universities (KU Leuven, UGent, VUB, UCL, ULG and ULB) with the Belgian Nuclear Research Centre. 

Structure

The current programme can be divided into three core blocks:

  • Introductory courses allowing refreshing or first contact with the basic notions of nuclear physics, materials sciences and the principles of energy conversion through use of nuclear phenomena, supplemented by a core block of nuclear engineering applied to electricity generation and reactor use; theory of reactors and neutronics, thermal hydraulic phenomena during reactor operation, the nuclear fuel cycle and specific material-corrosion problems.
  • A block of elective courses that allow students to deepen certain topics of their choice.
  • A Master’s thesis.

The collaboration with SCK*CEN makes it possible to include actual use of facilities in the curriculum, supporting the development of skills and competences in a research environment. All subjects are taught by academics appointed by the partner universities, whereas the practical exercises and laboratory sessions are supervised by the experts of SCK*CEN. The Master’s thesis offers an opportunity for internship in industry or in a research laboratory.

All teaching activities take place on the premises of SCK*CEN. Courses are organised in English and in a modular way; teaching in blocks of one to three weeks for each module allows optimal time management for students and lecturers, facilitates registration for individual modules, and allows easy exchange with international students.

BNEN has served as a role model for the European Nuclear Education Network (ENEN) which now has become an association of over 60 members (universities, industry, regulators, research centres), aiming at facilitating mobility in Europe for students in nuclear engineering.

One particular aspect of the BNEN degree is that it automatically leads to the recognition as Class I Expert by the Federal Agency of Nuclear Control. In order to receive this accreditation the programme must at least offer 24 credits in Nuclear Safety and 12 credits in Radioprotection. 

Spotlight 

The Master of Science in Nuclear Engineering programme is an internationally oriented, interuniversity programme organised by BNEN in close collaboration with nuclear research centres and industry. The aim of the BNEN programme is to provide students with all the skills and scientific and technical background necessary to carry out duties at a high level of responsibility in order to ensure the safe and economical operation of nuclear power plants, the regulation and control of nuclear installations or to design new nuclear systems.

A major strength of the BNEN programme, as to its sustainability, is that it allows providing high quality academic education by experts from (or appointed by) the main Belgian universities at low individual cost and thus very efficiently harmonised/rationalised. In addition, the participation of the nuclear research centre SCK*CEN in the consortium provides superb realistic experimental facilities in a difficult (radioactive) environment at low cost for the universities.

A further fundamental strength of the programme can be found in the fact that a well-balanced curriculum is offered where the contents and format have been discussed at length with representatives of the major nuclear companies that are the first potential employers of the graduates. Objectives and programme outcomes were defined that encompass in depth disciplinary specific competences as well as, but in a less pronounced way, transferable skills and competences that are needed for an efficient integration of a graduate in a larger engineering team. There is a nearly complete overlap between objectives and realised competences in courses, electives, exercises and Master’s thesis. This can be ascribed to the following contributing factors:

  • There is a good balance between theory and practical skills. This is implemented through an appropriate diversity of didactic formats, including exercises and/or labs for nearly all courses.
  • There is a good balance between basic subjects and advanced subjects through elective course modules and topical days organized by SCK*CEN.
  • There is appropriate care for multidisciplinary scientific competences and for transferable skills through the importance given to the Master’s thesis.
  • The competences of the teaching staff (lecturers and assistants) with respect to the theoretical background are strong.
  • There is a good mix of junior and senior lecturers.
  • The education in programmes is backed by world-class research at the universities, the research center and the involvement of teachers working in international research institutes.
  • The involvement of several professors who have their principal employment in nuclear companies.
  • There is a large and dynamic group of young researchers involved in the course teaching (seminars), labs and exercises sessions and as mentors of Master’s theses.
  • Both the professors and the young researchers are very active in the major international research programmes and associations related to applications of nuclear phenomena.

Career perspectives

Graduates possess the necessary skills and knowledge to carry out duties at a high level of responsibility in:

  • nuclear power plants
  • nuclear research reactors
  • nuclear regulatory organisations
  • nuclear engineering firms
  • nuclear fuel fabrication
  • nuclear waste treatment
  • radio-isotope production

In addition, the degree itself is an important part of the legal qualifications necessary to become a safety professional in a major nuclear installation.



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This degree course will provide students with the relevant skills, knowledge and understanding in nuclear sciences (nuclear physics and radiochemistry), geosciences (including geochemistry, geophysics and hydrogeology) and materials science, to prepare graduates for a career in nuclear decommissioning, waste management and remediation. Read more
This degree course will provide students with the relevant skills, knowledge and understanding in nuclear sciences (nuclear physics and radiochemistry), geosciences (including geochemistry, geophysics and hydrogeology) and materials science, to prepare graduates for a career in nuclear decommissioning, waste management and remediation.

The University of Birmingham has a long and established track record of research and education in the nuclear sector, including reactor technology, metallurgy and materials, decommissioning and waste management, dating back to the earliest days of the nuclear industry. The University runs one of the longest-standing Masters level courses in the nuclear sector (over 50 years), in the Physics and Technology of Nuclear Reactors (PTNR). The University has extensive links to the nuclear industry and regulators both within the UK and internationally, including National Nuclear Labs, Japan Atomic Energy Agency, Idaho National Labs, NAGRA, British Energy, AMEC, Serco, HSE (NII), Atkins, Babcock Marine, Westinghouse, UKAEA, EDF, E.ON and RWE NPower.

About the School of Physics and Astronomy

We are one of the largest physics departments in the country with a high profile for research both in the UK and internationally, covering a wide range of topics offering exciting challenges at the leading edge of physics and astronomy. Our student satisfaction rating of 96% in 2016 demonstrates the quality of our teaching.
The School of Physics and Astronomy’s performance in the Research Excellence Framework (REF), the system for assessing the quality of research in the UK higher education institutions, has highlighted that 90% of research outputs in the School were rated as world-leading or internationally excellent.
Our research portfolio is wide-ranging, and covers three principal themes: Particle and Nuclear Physics; Quantum Matter and Nanoscale Science; and Astronomy and Experimental Gravity. We have over 120 academic and research staff together with 120 graduate students with around 50 technical and clerical support staff. Our annual research income is over £8 million and more than 250 research publications are produced each year.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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This masters degree course is for students with science-based backgrounds, such as undergraduate degrees in Geosciences, Chemistry, Physics and Engineering, who are interested in a career in the Nuclear industry. Read more
This masters degree course is for students with science-based backgrounds, such as undergraduate degrees in Geosciences, Chemistry, Physics and Engineering, who are interested in a career in the Nuclear industry.

The course covers a wide range of the skills required to work in the nuclear industry and is co-taught with the academic staff from the Schools of Physics and Chemistry.

The University of Birmingham has a long and established track record of research and education in the nuclear sector, including reactor technology, metallurgy and materials, decommissioning and waste management, dating back to the earliest days of the nuclear industry. The University runs one of the longest-standing Masters level courses in the nuclear sector (over 50 years), in the Physics and Technology of Nuclear Reactors (PTNR). The University has extensive links to the nuclear industry and regulators both within the UK and internationally, including National Nuclear Labs, Japan Atomic Energy Agency, Idaho National Labs, NAGRA, British Energy, AMEC, Serco, HSE (NII), Atkins, Babcock Marine, Westinghouse, UKAEA, EDF, E.ON and RWE NPower.

About the School of Geography, Earth and Environmental Sciences

The School of Geography, Earth and Environmental Sciences has a renowned history for international excellence in research and teaching.
Our postgraduate programmes are shaped by research that addresses global grand challenges across the fields of geography, planning, earth sciences, environmental science, occupational health and safety, and environmental and public health. With policy- and practice-focused teaching, all our programmes have high employability outcomes.
We offer excellent facilities for postgraduate study including extensive map and archive facilities, earth imaging laboratory, stable-isotope laboratory (SILLA), environmental library, fully digital drawing office, and state-of-the-art laboratories for environmental chemistry, sedimentology, ecology, groundwater and palaeobiology. Our diverse range of programmes will provide you with a thorough understanding of the discipline, high-quality training and skills development, and access to our expert staff and extensive facilities.
Our graduates go on to forge careers in areas that matter – from environmental consultancies and the hydrocarbon industries, to urban planning, policy roles in NGOs and government regulatory services – and make a real contribution to global challenges. Many graduates also go on to study for PhDs.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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This MSc course addresses scientific, technological and legislative aspects of the diagnosis (analysis and assessment) and management (remediation and restoration) of important environmental issues concerned with contaminated land, water quality, air pollution and waste. Read more
This MSc course addresses scientific, technological and legislative aspects of the diagnosis (analysis and assessment) and management (remediation and restoration) of important environmental issues concerned with contaminated land, water quality, air pollution and waste.

It has been designed with industry advice to enable good science and engineering graduates begin and advance successful careers in the environmental sector, and pursue postgraduate scientific research. The MSc is delivered in first-class teaching and research facilities by a dedicated team of internationally renowned environmental scientists, and presents considerable interaction with environmental consultancies and engineers, industry, local and regulatory authorities, and research institutes.

During 2007-2011, the course was supported by 6 NERC studentships, the most awarded annually to an environmental MSc. Students on the course have won the most EMpower research projects funded by companies within the nuclear industry, and since 2008, a Prize for Best Performance Overall has been awarded annually by Arup, a global environmental engineering and consultancy company.

See the website https://www.royalholloway.ac.uk/earthsciences/coursefinder/mscenvironmentaldiagnosismanagement.aspx

Why choose this course?

- The quality of teaching and learning on the course is enhanced considerably by significant professional networking and interaction with leading experts from environmental consultants and engineers, industry, local and regulatory authorities, and universities and research institutes; who present seminars, host study visits, co-supervise research projects, and act as an advisory panel.

- Graduates of the course are skilled and knowledgeable scientists with excellent employment prospects within the environmental sector, particularly as environmental consultants and engineers, in local and regulatory authorities, industry, charitable trusts, and research institutes and universities.

- In the 2008 Research Assessment Exercise (RAE), the Department’s research was ranked equal 6th in the UK with 70% rated as world-leading or internationally excellent in terms of originality, significance and rigour.

Course content and structure

You will study seven taught modules, three case studies and complete an Independent Research Project:

- Communication & Co-operation Skills
Provides practical training in written and verbal communication media; project, team and time management; role playing in environmental impact assessment; careers advice and a mock job interview.

- Environmental Inorganic Analysis
A practical laboratory and field-work based introduction to quality assured sampling strategies, preparation processes and analytical methods for heavy metals in soils, surface waters, and vegetation.

- Diagnostic & Management Tools
Provides practical computer-based training in statistical analysis of environmental data, geographical information systems, and environmental risk assessment.

- Environmental Organic Chemistry Pathways Toxicology
Comprises physical and chemical properties, transport, fate and distribution, and toxicology of organic compounds in the environment.

- Contaminated Land Case Study
A practical laboratory and field-work based human health risk assessment of pollutant linkages at a former gravel extraction and landfill site. It comprises desk-top study, site investigation and sampling, laboratory analysis, data interpretation, quantitative risk assessment, and remediation options.

- Water Quality: Diagnosis & Management
A practical laboratory and field-work based introduction to aquatic science, hydrogeology, treatment of water and wastewater, and chemical, biological and physical monitoring of water quality. Includes a study visit to a global manufacturer of pesticides and herbicides.

- River Thames Basin Case Study
A combination of fieldwork, laboratory work and desk-top study to diagnose water quality in chemical and ecological terms, to identify industrial and agricultural pollutant linkages, and to determine environmental, ecological and health impacts.

- Air Pollution: Monitoring, Impacts & Management
Covers: sources, sinks, dispersion, conversion, monitoring, impacts and management of air pollutants with study visits to a local authority and a government research institute.

- Royal Holloway Campus Air Quality Case Study
Involves a consultancy company-style investigation of ambient and indoor air quality within the confines of RHUL campus; and combines desk-top research with practical fieldwork and laboratory analysis.

- Waste Management & Utilisation
Considers municipal, industrial and radioactive waste management options, with study visits to a landfill site, a waste incinerator, composting facility, recycling centre and nuclear power station.

- Independent Research Project
Consists of a four-month, independent scientific investigation, usually in collaboration with environmental consultants and engineers, local and regulatory authorities, industry, research institutes, and universities. Projects may comprise a desk-top study or practical laboratory and field investigation, they may be funded, and often lead to employment or to PhD research. Final results are presented at the Research Project Symposium to an audience from within the environmental sector

On completion of the course graduates will have acquired the experience, knowledge, and critical understanding to enable them to:

- Conduct themselves as professional environmental research scientists, consultants, and managers, convey in a professional manner, scientific, technical and managerial information, and manage projects and resources efficiently

- Apply quality assured sampling strategies, preparation procedures and analytical systems to quantify health risks posed by inorganic and organic pollutant linkages in soils, waters and air

- Apply statistical analysis, geographical information systems, and environmental impact and risk assessment to the interpretation of environmental data

- Appreciate the importance and impacts of hydro-geological, and bio- and physico-chemical processes on the treatment of water and wastewater, and on the quality of groundwater and aquatic ecosystems

- Appreciate the emissions, dispersion, conversion, and monitoring of natural and man-made gaseous and particulate air pollutants, their impacts on climate change, human health and vegetation, and management on local, regional and global scales

- Appreciate the prevention, re-use, recycling, recovery, disposal and utilisation of municipal and industrial waste and the management of nuclear waste within the constraints of national and international legislation

- Manage an independent environmental science research project, often with professional collaboration, and of significant value to their career development.

Assessment

- Written examinations test understanding of the principles and concepts taught in the modules and case studies, and the ability to integrate and apply them to environmental diagnosis and management.

- Assessment of module work and practical computing, laboratory and fieldwork evaluates critical understanding of the environmental science taught, and mastery of producing quality assured data, and its analysis, interpretation, presentation and reporting.

- Assessment also reflects the ability to work independently and in teams, and to learn during study visits.

- Assessment of research projects is based on the ability to manage and report on an original piece of independent scientific work.

- All assessed work has significant confidential written and verbal feedback.

Employability & career opportunities

94% of the graduates of the MSc from 2008 to 2013 either successfully secured first-destination employment as international environmental consultants and engineers, in industry, local and regulatory authorities and charitable trusts, or are conducting postgraduate research within international research institutes and universities.

How to apply

Applications for entry to all our full-time postgraduate degrees can be made online https://www.royalholloway.ac.uk/studyhere/postgraduate/applying/howtoapply.aspx .

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Run in partnership with fellow members of the Nuclear Technology Education Consortium (NTEC), Birmingham, Leeds, London and Manchester, the course gives you access to more than 90 per cent of the UK’s academic expertise in nuclear waste immobilisation, decommissioning and clean-up. Read more

About the course

Run in partnership with fellow members of the Nuclear Technology Education Consortium (NTEC), Birmingham, Leeds, London and Manchester, the course gives you access to more than 90 per cent of the UK’s academic expertise in nuclear waste immobilisation, decommissioning and clean-up.

You’ll be based in the department’s world-leading NucleUS Immobilisation Science Laboratory, and will take eight modules on the nuclear fuel cycle. Topics include reactor materials and nuclear waste management with each module including one week at one of our partner universities.

A welcoming department

A friendly, forward-thinking community, our students and staff are on hand to welcome you to the department and ensure you settle into student life.

Your project supervisor will support you throughout your course. Plus you’ll have access to our extensive network of alumni, offering industry insight and valuable career advice to support your own career pathway.

Your career

Prospective employers recognise the value of our courses, and know that our students can apply their knowledge to industry. Our graduates work for organisations including Airbus, Rolls-Royce, the National Nuclear Laboratory and Saint-Gobain. Roles include materials development engineer, reactor engineer and research manager. They also work in academia in the UK and abroad.

90 per cent of our graduates are employed or in further study 6 months after graduating, with an average starting salary of £27,000, the highest being £50,000.

Equipment and facilities

We have invested in extensive, world-class equipment and facilities to provide a stimulating learning environment. Our laboratories are equipped to a high standard, with specialist facilities for each area of research.

Materials processing

Tools and production facilities for materials processing, fabrication and testing, including wet chemical processing for ceramics and polymers, rapid solidification and water atomisation for nanoscale metallic materials, and extensive facilities for deposition of functional and structural coatings.

Radioactive nuclear waste and disposal

Our £3million advanced nuclear materials research facility provides a high-quality environment for research on radioactive waste and disposal. Our unique thermomechanical compression and arbitrary strain path equipment is used for simulation of hot deformation.

Characterisation

You’ll have access to newly refurbished array of microscopy and analysis equipment, x-ray facilities, and surface analysis techniques covering state-of-the-art XPS and SIMS. There are also laboratories for cell and tissue culture, and facilities for measuring electrical, magnetic and mechanical properties.

The Kroto Research Institute and the Nanoscience and Technology Centre enhance our capabilities in materials fabrication and characterisation, and we have a computer cluster for modelling from the atomistic through nano and mesoscopic to the macroscopic.

Stimulating learning environment

An interdisciplinary research-led department; our network of world leading academics at the cutting edge of their research inform our courses providing a stimulating, dynamic environment in which to study.

Teaching and assessment

Working alongside students and staff from across the globe, you’ll tackle real-world projects, and attend lectures, seminars and laboratory classes delivered by academic and industry experts.

You’ll be assessed by formal examinations, coursework assignments and a dissertation.

Sample modules

Processing, Storage and Disposal of Nuclear Waste; Nuclear Fuel Cycle; Reactor Physics and Criticality; Risk Management.

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Programme description. This MSc is aimed at students who wish to pursue a geosciences-related career in the future energy sector, as it transitions from fossil fuels to a low carbon economy. Read more

Programme description

This MSc is aimed at students who wish to pursue a geosciences-related career in the future energy sector, as it transitions from fossil fuels to a low carbon economy. The aim is to offer a programme that uses subsurface (geological) knowledge opening a diverse range of career pathways in lower carbon geoenergy technologies; the disposal of energy-related wastes and the hydrocarbon industry.

This MSc programme builds on the strength and reputation of the research groups operating in the School of GeoSciences on uses of the subsurface: carbon capture and storage (CCS); radioactive waste disposal; energy storage and extraction; unconventional and conventional hydrocarbons; wet and dry geothermal heat; and subsurface fluid tracing using noble gases and stable isotopes.

Programme structure

Compulsory courses (for students who have accredited prior learning, elective courses are taken in lieu) – 90 credits

  • Future Geoenergy Resources
  • Applied Hydrogeology and Near surface Geophysics
  • Hydrogeology 2
  • Environmental Geochemistry
  • Project Design and Literature Analysis
  • Carbon Storage and Monitoring

Compulsory Courses – for those with Geoscience background – 20 credits

  • Subsurface Reservoir Quality

Compulsory Courses – for those without Geoscience background – 20 credits

  • Geology for Earth Resources
  • Hydrocarbons

Optional courses: choice of 10 credits from following

  • Ore Mineralogy, Petrology & Geochemistry
  • Seismic Reflection Interpretation
  • Carbon Capture and Transport
  • Helmsdale MSc Field Excursion
  • Environmental Problems and Issues
  • Nuclear Waste Management: Principles, Policies & Practice

Compulsory Dissertation

  • Dissertation in Applied Geoscience (Geoenergy)

Career opportunities

This programme will train students in the use of subsurface geological knowledge opening a diverse range of career pathways in lower carbon geoenergy technologies and the disposal of energy-related wastes. These include radioactive waste disposal; carbon capture and storage; geothermal energy and subsurface energy storage including compressed air energy storage.

Other pathways include working in environmental and regulatory aspects of energy storage involving potential pollution; tracking subsurface fluids in the event of leakage from subsurface facilities and ground water resources.



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This is a one-year postgraduate course designed to provide civil engineers and other suitably qualified professionals with a good understanding of energy management and efficiency as well as sustainable energy generation. Read more

Introduction:

This is a one-year postgraduate course designed to provide civil engineers and other suitably qualified professionals with a good understanding of energy management and efficiency as well as sustainable energy generation. The course will further advanced knowledge in efficiency techniques, sustainable energy technologies and energy management systems and strategies. It will include theory and practice along with economics, current legal requirements and standards. The course will be of particular interest to those already in employment as part of ongoing professional training as well as leading to the widening of new job opportunities for its graduates. The Diploma award is based on a combination of the results of two examination papers and an individual project. Students must pass each paper and the project and neither of these can be deferred.

Course Content:

The course consists of 3 taught modules each carrying 20 ECTS credits.

Module 1: Energy management and efficiency will introduce topics such as energy physics, energy resources, climate change and environment. Energy demand and energy management will be detailed sectorally in terms of energy in buildings; in transport and in industry. There will be a focus on measures for energy reduction and energy efficiency along with assessment procedures. Topics in energy economics, policy, embodied energy and life cycle analysis and finally energy legislation and energy markets will be addressed.

Module 2: Sustainable energy technologies will introduce energy generation and conversion. It will concentrate on renewable energy generation technologies (and include lectures on wind, wave, tidal, biomass, biofuels, geothermal, hydro, solar, waste to energy) and low carbon technologies (nuclear energy, hydrogen, fuel cells). Grid integration and energy storage will be addressed as well as the future of fossils including clean coal and carbon capture and storage.

Module 3: Individual project is a key element of the course where the theoretical and technical aspects of Sustainable Energy which have been presented, analysed and discussed in the other two modules are brought into practical and innovative focus. Each student will be expected to engage in a piece of original study to reveal a novel aspect of sustainable energy.

Lectures will be held on Friday evenings and Saturday mornings each week throughout the two semesters (September to April), with laboratories or site visits scheduled for Saturday mornings. In addition to attending lectures, students are required to prepare and submit individual original pieces of coursework relating to the subject matter of each of the modules. Assessment is by examination and coursework.

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This is the first masters level degree course that brings academic rigour and focus to this multi-disciplinary subject. The MSc in Flow Assurance for Oil and Gas Production is suitable for engineering and applied science graduates who wish to embark on successful careers in the oil and gas industry. Read more
This is the first masters level degree course that brings academic rigour and focus to this multi-disciplinary subject. The MSc in Flow Assurance for Oil and Gas Production is suitable for engineering and applied science graduates who wish to embark on successful careers in the oil and gas industry. Our strategic links with industry ensures that all the materials taught on the course are relevant, timely and meets the needs of organisations competing within the sector. This industry-led education makes our graduates some of the most desirable the world for energy companies to recruit.

In the foreseeable future, hydrocarbon (oil and gas) will still be the major energy source irrespective of the developments in renewable and nuclear energy. The term ‘flow assurance’ was coined by Petrobras in the early 1990s meaning literally “guarantee of flow.” It covers all methods to ensure the safe and efficient delivery of hydrocarbons from the well to the collection facilities. It is a multi-disciplinary activity involving a number of engineering disciplines including mechanical, chemical, process, control, instrumentation and software engineering.

Previously uneconomical fields are now being exploited - oil and gas are produced in hostile environments from deep water to the Arctic. As conventional oil reserves decline, companies are developing unconventional oil fields with complex fluid properties. All of these factors mean that flow assurance plays an increasingly important role in the oil and gas industry.

Course overview

The MSc in Flow Assurance for Oil and Gas Production is made up of nine compulsory taught modules (eight compulsory and one optional from a selection of three), a group project and an individual research project.

In addition to management, communication, team work and research skills, each student will attain at least the following outcomes from this degree course:

- Develop a professional ability to undertake a critical appraisal of technical and/or commercial literature.
- Demonstrate an ability to manage research studies, and plan and execute projects in the area of oil and gas production technology and flow assurance.
- Use of the techniques appropriate for the management of a oil and gas production and transport systems.
- Gain an in-depth understanding of the technical, economic and environmental issues involved in the design and operation of oil and gas production and transport systems.

Group project

The group project runs between February and April and is designed to give students invaluable experience of delivering a project within an industry structured team. The project is sponsored by industrial partners who provide particular problems linked to their plant operations. Projects generally require the group to provide a solution to the operational problem. This group project is shared across the Process Systems Engineering MSc, Flow Assurance MSc and Carbon Capture and Transport MSc, giving the added benefit of gaining new insights, ways of thinking, experience and skills from students with other backgrounds.

During the project you will develop a range of skills including learning how to establish team member roles and responsibilities, project management, and delivering technical presentations. All groups submit a written report and deliver a presentation to the industry partner. Part-time students will take an additional elective module instead of the group project.

It is clear that the modern design engineer cannot be divorced from the commercial world. In order to provide practice in this matter, a poster presentation will be required from all students. This presentation provides the opportunity to develop presentation skills and effectively handle questions about complex issues in a professional manner.

Recent Group Projects include:

- Waste water treatment process design
- A new operation mode design for a gas processing plant.

Individual Project

The individual research project allows students to delve deeper into a specific area of interest. Our industrial partners often put forward practical problems or areas of development as potential research topics. For part-time students, their research project is usually undertaken in collaboration with their place of work. The individual project takes place from April/May to August.

Recent Individual Research Projects include:

- Separation – from Subsea to Topside
- Evaluation of Multiphase Flow Metering
- Multiphase Jet Pumps
- Sand Transport in Undulating Terrains.

Modules

The taught programme for the Flow Assurance masters is generally delivered from October to March and is comprised of eight compulsory modules, and one optional module to select from a choice of four. The modules are delivered over one to two weeks of intensive delivery with the later part of the module being free from structured teaching to allow time for more independent learning and reflection. Students on the part-time programme will complete all of the compulsory modules based on a flexible schedule that will be agreed with the course director.

Assessment

Taught modules: 40%; Group project: 20% (dissertation for part-time students); Individual Research Project: 40%.
The taught modules are assessed by an examination and/or assignment. The Group Project is assessed by a written technical report and oral presentations. The Individual Research Project is assessed by a written thesis and oral presentation.

Funding

Bursaries are available; please contact the Course Director for more information.

Cranfield Postgraduate Loan Scheme (CPLS) - https://www.cranfield.ac.uk/Study/Postgraduate-degrees/Fees-and-funding/Funding-opportunities/cpls/Cranfield-Postgraduate-Loan-Scheme

The Cranfield Postgraduate Loan Scheme (CPLS) is a funding programme providing affordable tuition fee and maintenance loans for full-time UK/EU students studying technology-based MSc courses.

Career opportunities

There is considerable global demand in the oil and gas industry for flow assurance specialists with in-depth technical knowledge and practical skills. The industry led education makes our graduates some of the most desirable for recruitment in this sector. The depth and breadth of the course equips graduates with knowledge and skills to tackle one of the most demanding challenges to secure our energy resource. Graduates of the course can also be recruited in other upstream and downstream positions. Their knowledge can additionally be applied to the petrochemical, process and power industries.

Further Information

For further information on this course, please visit our course webpage - http://www.cranfield.ac.uk/courses/masters/flow-assurance-for-oil-and-gas-production.html

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This course is particularly suitable for people who work for regulatory bodies, whether in legal departments or as field or enforcement officers, environmental consultants, planners, solicitors, barristers, those who work in regulated industries, such as waste or water, and academics. Read more

About the course

This course is particularly suitable for people who work for regulatory bodies, whether in legal departments or as field or enforcement officers, environmental consultants, planners, solicitors, barristers, those who work in regulated industries, such as waste or water, and academics.
•Informa
This course is delivered in partnership with Informa Professional Academy, an organisation dedicated to working with leading academic bodies to provide high-calibre and well respected distance learning postgraduate courses
•Develop your own personal pathway
This course combines one core module with a diverse range of optional modules
•Study at your own pace
Enjoy flexible distance learning, with the option to exit at one of several points with a postgraduate award
•Differentiate yourself in the job market
Gain a competitive edge by increasing your knowledge of Environmental law
•Boost your employability
Improve your career and employability options in a globalised job market

Environmental Law modules:

The Environment and Legal Control – in this module you will look at the historical development of the legal regulation of the environment. You will further examine the UK and EU legal systems in which environmental law is framed and gain an understanding of use of civil penalties in an environmental law context.

You will also select elective modules which might include:
•Atmospheric Pollution Law
•Biodiversity Impact and Nature Conservation Law
•Environmental Assessment
•Environmental Permitting & Climate Change
•International Environmental Law
•Law of Environmental Crime
•Law of Health and Safety
•Light Pollution Law
•Negotiated Study
•Noise Pollution Law
•Planning Law
•Waste Management and Contaminated Land
•Water Pollution Law
•Nuclear Law

Dissertation
You must also undertake a dissertation, providing an invaluable opportunity to work in depth on a particular aspect of the law. You will need to apply and enhance your technical knowledge and critical awareness in a subject of your choice. In order to obtain the LLM in Environmental Law and Practice it is necessary to write a dissertation with an environmental law theme.

Note: All modules are subject to change in order to keep content current.

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This course is particularly suitable for people who work for regulatory bodies, whether in legal departments or as field or enforcement officers, environmental consultants, planners, solicitors, barristers, those who work in regulated industries, such as waste or water, and academics. Read more

About the course

This course is particularly suitable for people who work for regulatory bodies, whether in legal departments or as field or enforcement officers, environmental consultants, planners, solicitors, barristers, those who work in regulated industries, such as waste or water, and academics.
•Informa
This course is delivered in partnership with Informa Professional Academy, an organisation dedicated to working with leading academic bodies to provide high-calibre and well respected distance learning postgraduate courses
•Develop your own personal pathway
This course combines one core module with a diverse range of optional modules
•Study at your own pace
Enjoy flexible distance learning, with the option to exit at one of several points with a postgraduate award
•Differentiate yourself in the job market
Gain a competitive edge by increasing your knowledge of Environmental law
•Boost your employability
Improve your career and employability options in a globalised job market

Course modules

The Environment and Legal Control – in this module you will look at the historical development of the legal regulation of the environment. You will further examine the UK and EU legal systems in which environmental law is framed and gain an understanding of use of civil penalties in an environmental law context.

You will also select elective modules which might include:
•Atmospheric Pollution Law
•Biodiversity Impact and Nature Conservation Law
•Environmental Assessment
•Environmental Permitting & Climate Change
•International Environmental Law
•Law of Environmental Crime
•Law of Health and Safety
•Light Pollution Law
•Negotiated Study
•Noise Pollution Law
•Planning Law
•Waste Management and Contaminated Land
•Water Pollution Law
•Nuclear Law

Dissertation
You must also undertake a dissertation, providing an invaluable opportunity to work in depth on a particular aspect of the law. You will need to apply and enhance your technical knowledge and critical awareness in a subject of your choice. In order to obtain the LLM in Environmental Law and Practice it is necessary to write a dissertation with an environmental law theme.

Teaching and assessment

The LLM is studied by distance learning and is fully assessed by coursework and a dissertation. The distance learning mode involves optional attendance at Leicester De Montfort Law School, for a maximum of ten Saturday study days during the period of study. The course is structured in a way that allows you to exit at one of several points, if desired, each with a postgraduate award.

Graduate careers

This career development course equips you to enter legal and other work relating to the operation and regulation of businesses, both in the UK and overseas.

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Summary. This academically challenging programme introduces engineering, science and mathematics graduates to incumbent and modern energy technologies for sustainable power generation. Read more

Summary

This academically challenging programme introduces engineering, science and mathematics graduates to incumbent and modern energy technologies for sustainable power generation. You will learn to design and assess the performance of fuel cells and photovoltaic systems, wind power and hybrid propulsion systems.

Modules

Compulsory modules: Introduction to Energy Technologies, Environment and Sustainability; Fuel Cells and Photovoltaic Systems 1 and 2; Nuclear Energy Technology; Renewable Energy from Environmental Flows; Sustainable Energy Systems, Resources and Usage; MSc Research Project

Optional modules: Two from: Cryogenics and Superconductivity; Thermofluid Engineering for Low Carbon Energy; Offshore Engineering and Analysis; Waste Resource Management; Bioenergy; Energy Performance Assessment of Buildings; Advanced Electrical Systems

Visit our website for further information.



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