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Masters Degrees (Gas Engineering)

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This course provides the knowledge required for a range of professional careers within the oil and gas industry. You will gain an understanding of engineering relevant to upstream oil and gas engineering. Read more
This course provides the knowledge required for a range of professional careers within the oil and gas industry. You will gain an understanding of engineering relevant to upstream oil and gas engineering.

It develops professional levels of skill in key subject areas by building on a foundation of first degree level scientific and mathematical skills. Typical students include new graduates and people working in oil and gas companies, energy companies, national oil companies, engineering firms, and project service companies.

Another related complementary course is our MSc Offshore Oil and Gas Engineering which is aimed at students who wish to work in the Oil and Gas Industry with particular focus on offshore operations such as exploration, drilling and production. An advantage of these two courses is that they are designed to have the same first four stage 1 modules introducing the Oil and Gas industry so that students, having gained more understanding of the industry, can compare the courses and swap between courses during stage 1, as they decide which course they would prefer to follow in stage 2. This flexible approach offers students the advantage of more choice during their study.

Each module comprises up to 52 hours of lectures and tutorials. Significant additional private study is expected during each module.

Visit the website: http://www.rgu.ac.uk/engineering/study-options/postgraduate-taught-full-time/oil-and-gas-engineering

Stage 1

•Subsurface
•Wells
•Facilities
•Business Essentials

Exit award: PgCert Oil and Gas Engineering

Stage 2

•Engineering Project Management
•Environmental Impact and Risk Management
•Materials & Corrosion
•Completions & Subsea Systems

Exit award: PgDip Oil and Gas Engineering

Stage 3

•Individual Project Report

Award: MSc Oil and Gas Engineering

Accreditation

This course is accredited by the Energy Institute for Further Learning at Masters Level.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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The future exploration and development of Oil and Gas will increasingly move towards offshore drilling and production. This will involve drilling and production rigs, vessels and infrastructure. Read more
The future exploration and development of Oil and Gas will increasingly move towards offshore drilling and production. This will involve drilling and production rigs, vessels and infrastructure.

Offshore Oil and Gas Engineering activity is increasing all around the world and graduates from this course will have a particular focus on operations in the ocean, processing, pipelines, subsea systems, materials and corrosion. This course is particularly designed for those wishing to move into the Oil and Gas Industry who may not have previous detailed oil and gas knowledge or industry experience.

Another related complementary course is our MSc Oil and Gas Engineering which has more focus in stage 2 on well completions, project management, risk and the environment. An advantage of these two courses is that they are designed to have the same first four stage 1 modules introducing the Oil and Gas industry so that students, having gained more understanding of the industry, can compare the courses and swap between courses during stage 1, as they decide which course they would prefer to follow in stage 2. This flexible approach offers students the advantage of more choice during their study.

Each module comprises up to 52 hours of lectures and tutorials. Significant additional private study is expected during each module.

Visit the website https://www.rgu.ac.uk/engineering/study-options/postgraduate/offshore-oil-and-gas-engineering-masters

Stage 1

• Subsurface
• Wells
• Facilities
• Business Essentials

Exit award: PgCert Oil and Gas Engineering

Stage 2

• Materials and Corrosion
• Processing and Pipelines
• Oceans, Operability & Humans in the Ocean
• Subsea Systems

Exit award: PgDip Offshore Oil and Gas Engineering

Stage 3

• Individual Project Report

Award: MSc Offshore Oil and Gas Engineering

Placements and accreditations

This course is not yet accredited with any Institute. However, we will be seeking accreditation from the Energy Institute once a full cohort of students has completed the course.

Careers

This course provides the knowledge required for a range of professional careers within the offshore oil and gas industry.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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IN BRIEF. The first course of its kind in the UK. Enhances your career prospects in the oil and gas industries. Gives you the opportunity to become a Chartered Engineer. Read more

IN BRIEF:

  • The first course of its kind in the UK
  • Enhances your career prospects in the oil and gas industries
  • Gives you the opportunity to become a Chartered Engineer
  • Part-time study option
  • International students can apply

COURSE SUMMARY

This course is designed for engineering graduates who intend to enter or enhance their career prospects in the oil or natural gas industry. It will be re-accredited by the IGEM in 2016.

The course explores the geology, exploration, drilling, production (surface and subsurface), reservoir engineering and management, distribution and transmission of oil and gas from practical and theoretical viewpoints.

You will develop the knowledge and the skills for problem solving in terms of development, design, business and economics management in oil and gas engineering which will assist you to make management and scientific decisions in the workplace.

On completion of this course you may be eligible to join the Institution of Gas Engineers & Managers or Society of Petroleum Engineers which may enable you to qualify as a Chartered Engineer.

COURSE DETAILS

As well as studying the topics outlined in the following modules you will be expected to develop, to a professional standard, a number of transferable skills such as numeracy skills by way of quantitative mathematical analysis, problem solving skills, communication skills during group work, laboratory report writing and time management skills.

DURATION:

September intake

MSc (one year full-time or two years part-time)

PgDip (nine months full-time or one year and six months part-time)

January intake

MSc (one year and four months full-time or two years and eight months part-time)

PgDip (one year full-time or two years part-time)

TEACHING

Teaching will be carried out as formal lectures, laboratories, tutorials and workshops

ASSESSMENT

Petroleum and Gas Engineering students are required to attend all of the modules. There are seven examination sessions. Students must pass all the modules studied with an overall average of at least 50% in the module programmes and in the course assessed work.

All laboratory and course assessed work must be submitted on time and to the required standard.

Students admitted to the course at Diploma level with examination and coursework of 50 % may proceed to MSc level. (120 Credits)

MSc Students must undertake a dissertation (60 Credits) on any aspect of the natural gas business either experimentally or computationally. The project can frequently relate to research work already in the school and or natural gas engineering and management.

CAREER PROSPECTS

Due to the relative uniqueness of this course in the UK, together with the high demand of graduates with the types of skills and knowledge that this course offers, employment prospects are excellent.

Graduates can expect to enter or progress in industries such as petroleum, gas, process engineering, chemical or steel.

LINKS WITH INDUSTRY

This programme is strongly supported by major petroleum and gas engineering technology providers.

You will be assessed by both coursework 50% and examinations 50%



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This course aims to equip you with sector specific oil and gas engineering, technology and operational skills to succeed in this competitive environment. Read more
This course aims to equip you with sector specific oil and gas engineering, technology and operational skills to succeed in this competitive environment.

WHY CHOOSE THIS COURSE?

The oil and gas industry is continuously developing and is therefore both recognised and expected to remain as a major contributor to the economy of many developed and developing regions as it continues to be driven not only by new oil and gas discoveries, but by a constant demand to find newer, safer, more efficient and cost-effective ways of extracting resources. Whilst exploration continues to identify major oil and gas finds across the world, these are increasingly less accessible and require complex engineering solutions to deliver effective operations and supply. Additionally, the significant and rising operating costs of existing installations are driving the sector to seek suitably qualified engineers are able to support operations and initiate improvements within the four main strands of oil and gas facilities: offshore, onshore, sub-sea and pipelines.

This course will provide you with specialist education in oil and gas engineering and help to equip you with the theoretical and practical knowledge and skills required by the industry to solve and manage oil and gas engineering problems and complexities and to optimise existing processes to deliver increased efficiencies.

The global nature of the industry offers significant scope for graduates to have an incredibly varied career spanning international borders. This course is designed to allow you to develop the knowledge and skills for a wide range of professional opportunities in national and multinational oil and gas companies and consultancies.

WHAT WILL I LEARN?

A wide range of subjects are available, giving you a multidisciplinary approach to oil and gas engineering.

Modules
-Durability, Reliability and Sustainability
-Engineering Materials for the Oil and Gas Sector
-Fluid Flow Systems including Distribution and Transmission
-Control Systems and Instrumentation for the Oil and Gas Industry
-Petroleum Processing and Gas Technologies
-Drilling and Production Technology
-Health, Safety and Environmental Management in the Oil and Gas Industry
-Project Management
-Study Skills and Research Methods
-Research or Industry Sponsored Project

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

This course has been developed with industry experts and aims to provide you with technical capability alongside analytical and creative skills to have a successful career in the oil and gas industries. Throughout the course you will find yourself working on current industry-based problems, providing you with the opportunity to gain additional skills and experience. The course will keep you up to date with current events and the latest, leading-edge industry thinking through opportunities to visit facilities and hear from leading industry figures. These visits are a great way to network with potential employers.

GLOBAL LEADERS PROGRAMME

To prepare students for the challenges of the global employment market and to strengthen and develop their broader personal and professional skills Coventry University has developed a unique Global Leaders Programme.

The objectives of the programme, in which postgraduate and eligible undergraduate students can participate, is to provide practical career workshops and enable participants to experience different business cultures.

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An oil and gas engineer is involved in nearly all stages of oil and gas field evaluation, development and production. The aim is to maximise hydrocarbon recovery at minimum cost while maintaining a strong emphasis on reducing environmental impact. Read more
An oil and gas engineer is involved in nearly all stages of oil and gas field evaluation, development and production. The aim is to maximise hydrocarbon recovery at minimum cost while maintaining a strong emphasis on reducing environmental impact. The range of employment opportunities for students who hold an MSc oil & gas Engineering is very wide. Once you have completed your MSC in Oil & Gas Engineering, you will be equipped with skills and knowledge that enable you to solve future tasks and challenges related to the development and production of oil and gas fields. There are great work opportunities within the traditional as well as the future oil industry. Possible work places include National and international oil companies, consultancy firms and service providers. A completed study also forms a good basis for a future career as a researcher.

You will receive guidance and support from staff that have specialised in the discipline of oil & gas, fire science and energy for many years. All the staff involved in this course are committed to meeting your expectations. However, in turn there are certain expectations of you, as studying at this level requires you to demonstrate that you have the mental capacity, self-motivation and commitment to achieve this award.

Teaching methods include lectures, seminars, workshops, laboratory work, project work, case studies, site visits. The mix of teaching methods is designed to motivate, challenge students considering different learning styles to maximise their potential. Personal study also forms an integral part of the course. The students will learn by a variety of methods including innovative information and communication technologies and practical case studies based on research outcomes achieved by the School staff.

INDUSTRY LINKS

The course is supported by an Industrial Liaison Group which reviews and provide input into the development of the course in order to ensure that it meets the needs of the oil and gas industry. Our Industrial partners also contribute to some teaching through guest lecturers, CPD events, and research projects. Invited lectures were done by representatives from Energy Institute, Institution of Fire Engineers, Shell, BP, GexCon, Fire and Rescue Services, Tyco, BRE, Horea Lea, Carbon Trust, Government Office for the North West and others.

LEARNING ENVIRONMENT AND ASSESSMENT

The course will be delivered through lectures, tutorials and practical exercises. Guided teaching and formal assessments will enhance the development of transferable skills such report-writing, maintenance of case notes, formal presentations, participation in discussions, ability to work to deadlines, computing skills, public speaking, scientific analysis, adherence and development of laboratory protocols and research methods.

There are different assessment methods employed across the modules. Some modules are assessed by both examination and coursework while others are assessed by coursework only, which may take the form of group projects, modelling exercises or time-controlled assignments or seminar presentations.

OPPORTUNITIES

The range of employment opportunities for students who hold MSc Oil & Gas Engineering is very wide.

By completing Masters in Oil & Gas Engineering, you will learn skills and knowledge that enable you to solve upcoming responsibilities and challenges related to the petroleum industry. There are great work opportunities within the oil and gas industry. Possible work places include national and international oil companies, consultancy companies and oil and gas service firms.

Many of our students have progressed into either further higher study at the PhD level, or full-time employment within national and international organisations, consultancy or servicing companies.

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IN BRIEF. Flexible but rigorous period of study for graduates working in, or intending to work in, the natural gas/oil industry. Accredited by the Institution of Gas Engineers and Managers (IGEM). Read more

IN BRIEF:

  • Flexible but rigorous period of study for graduates working in, or intending to work in, the natural gas/oil industry
  • Accredited by the Institution of Gas Engineers and Managers (IGEM)
  • Excellent employment prospects
  • Part-time study option
  • International students can apply

COURSE SUMMARY

A comprehensive range of subjects is studied covering the whole spectrum of natural gas engineering, providing a sound base from which to select an area of specialised study.

You may also be eligible for membership of the Gas Engineering and Management Institute and subsequently become a Chartered Engineer. Alternatively you may wish to continue your studies to PhD level, researching gas engineering or other related subjects available within the School of Computing, Science & Engineering.

COURSE STRUCTURE

Duration:

September intake

MSc (one year full-time or two years part-time)

PgDip (nine months full-time or one year and six months part-time)

January intake

MSc (one year and four months full-time or two years and eight months part-time)

PgDip (one year full-time or two years part-time)

TEACHING

Teaching will take the form of traditional lectures in a class room, with PowerPoint presentations and videos and reference to laboratory work, demonstrations, workshops and tutorials and use of specialised software as applicable.

ASSESSMENT

Coursework and labs – 30%

Examinations – 70%

Plus Dissertation

EMPLOYABILITY

Graduates pursue a variety of careers in the natural gas/oil industry. The programme covers all aspects of gas technology and associated gas business management and will enable students to increase their skills and technical knowledge.

FURTHER STUDY

You may want to go on to further study with our Engineering 2050 Research Centre as part of the Spray Research Group.

The Spray Research Group is specialised in the production of sprays, atomiser design and turbulent spray structures. The group has a wide variety of experience in applying experimental and computational modelling techniques, utilising state-of-the-art facilities to fundamental and industrial and commercial applications of sprays, the design of atomisation devices and Petroleum Technology. We have a wide variety of experience in applying experimental and simulation modelling techniques, utilising state-of-the-art facilities to fundamental and industrial and commercial applications of Petroleum Technology.

Our expertise also extends to fluid mechanical and instrumentation related research and devoplment in the covers the production of sprays, the structures of sprays and interaction with fluid/boundary interactions, mixing, vaporization and combustion.

Research areas include: 

  • Reservoir simulation modelling
  • Smart well technology
  • Drilling technologies
  • Enhanced oil recovery (EOR)
  • Internal and external fluid flow modelling of production facilities
  • Gas processing and transportation (GTL)


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Engineering has been a key element in the development of society since the industrial revolution. Very little in modern society remains untouched by the actions of engineers. Read more
Engineering has been a key element in the development of society since the industrial revolution. Very little in modern society remains untouched by the actions of engineers. The Engineering Council, in Chartered Engineer and Incorporated Engineer Standard (UKSPEC), sets out its definition of an Engineer:

Engineers are characterised by their ability to develop appropriate solutions to engineering problems, using new or existing technologies, through innovation, creativity and change. They might develop and apply new technologies, promote advanced designs and design methods, introduce new and more efficient production techniques, marketing and construction concepts, pioneer new engineering services and management methods. Chartered Engineers are variously engaged in technical and commercial leadership and possess effective interpersonal skills.

It is widely reported that Oil and Gas engineering industries suffer from a lack of graduates with the Further Learning which incorporate management skills. In order to address these issues the Oil and Gas Engineering with Management seeks to provide a sound education in areas of Oil and Gas engineering through an integrated and co-ordinated programme.

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Your programme of study. This programme is delivered online to allow you to study flexibly from remote locations and anywhere in the world with internet access. Read more

Your programme of study

This programme is delivered online to allow you to study flexibly from remote locations and anywhere in the world with internet access. You can study this to fit around your lifestyle and study at University of Aberdeen in Aberdeen city, a university providing wide ranging programmes specifically for the oil and gas industry since the 1970s. You study with world renowned academics who have closely studied, consulted with and researched the oil and gas industry. 

If you are interested in working in the oil and gas industry and you have a science or engineering background you might want to consider Oil and Gas Engineering at Master's degree level. This qualification takes you across the full life cycle of production and it contains quite a few employable elements and modules in themselves giving you a wide variety of skills and knowledge to take with you into employment. You will often work with other specialists on offshore drilling platforms and facilities recording information on drilling, researching the most productive areas, ensuring maintenance and health and safety and a constant flow from a well. You also oversee some of the decommissioning aspects to redundant equipment on site.

This is a highly skilled job with a lot of responsibility associated to it, and you receive excellent input from University of Aberdeen which has been teaching oil and gas related subjects since the inception of the oil and gas industry in Aberdeen since the 1970s. Aberdeen is known the world over for energy production out of Aberdeen city and academics have worked with industry to ensure that knowledge is relevant now and in the future. You study use of technology and management of energy innovation projects.

Courses listed for the programme

Year 1

  • Compulsory
  • Fundamentals of Petroleum Geoscience
  • Fundamentals of Safety Engineering and Risk Management Concepts
  • Well and Production Engineering
  • Flow Assurance

Year 2

  • Compulsory
  • Reservoir Engineering
  • Project Management
  • Oil and Gas Chemistry
  • Facilities Engineering

Year 3

  • Individual Project in Oil and Gas Engineering

Find out more detail by visiting the programme web page

Why study at Aberdeen?

  •  You can study online in your own free time and pay by module
  • You can take up to six years to complete the degree if 27 months is not long enough for your personal circumstances
  • You study at University of Aberdeen a world renowned university linked to the oil and gas industry and research
  • You are taught by internationally respected researchers known to the oil and gas industry

Where you study

  • Online Learning
  • 5 Months, 27 Months, or 30 Months
  • Part Time
  • September or January start

International Student Fees 2017/2018

Find out about fees

Find out more about fees on the programme page

*Please be advised that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen and living costs 

Other engineering disciplines you may be interested in:



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Your programme of study. If you are interested in working in the oil and gas industry and you have a science or engineering background you might want to consider Oil and Gas Engineering at Master's degree level. Read more

Your programme of study

If you are interested in working in the oil and gas industry and you have a science or engineering background you might want to consider Oil and Gas Engineering at Master's degree level. This qualification takes you across the full life cycle of production and it contains quite a few employable elements and modules in themselves giving you a wide variety of skills and knowledge to take with you into employment. You will often work with other specialists on offshore drilling platforms and facilities recording information on drilling, researching the most productive areas, ensuring maintenance and health and safety and a constant flow from a well. You also oversee some of the decommissioning aspects to redundant equipment on site.

This is a highly skilled job with a lot of responsibility associated to it, and you receive excellent input from University of Aberdeen which has been teaching oil and gas related subjects since the inception of the oil and gas industry in Aberdeen since the 1970s. Aberdeen is known the world over for energy production out of Aberdeen city and academics have worked with industry to ensure that knowledge is relevant now and in the future. You study use of technology and management of energy innovation projects.

Courses listed for the programme

Semester 1

  • Reservoir Engineering
  • Fundamental Safety Engineering and Risk Management Concepts
  • Fundamentals of Petroleum Geoscience

Semester 2

  • Oil and Gas Chemistry
  • Facilities Engineering
  • Project Management
  • Flow Assurance

Semester 3

  • Project

Find out more detail by visiting the programme web page

Why study at Aberdeen?

  • The programme allows you to explore a wide range of career options due to its breadth and depth
  • You learn technological skills, health and safety plus risk management, planning and communication
  • The programme is fully accredited by IMechE and Energy Institute both industry recognised
  • You are uniquely situated in Aberdeen city, Scotland, home of the European energy industry

Where you study

  • University of Aberdeen
  • Full Time
  • 12 Months
  • September or January start

International Student Fees 2017/2018

Find out about fees

  • International
  • EU and Scotland
  • Other UK

Find out more about fees on the programme page

*Please be advised that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page and the latest postgraduate opportunities

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen and living costs 

Other engineering disciplines you may be interested in:



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There is still a shortage of qualified engineering specialists in the oil and gas sector, with skilled professionals enjoying competitive salaries. Read more

About the course

There is still a shortage of qualified engineering specialists in the oil and gas sector, with skilled professionals enjoying competitive salaries.

This programme trains specialist engineers in oilfield structural design, fabrication and installation. It is aimed both at engineering and physical science graduates who are interested in working in the oil and gas industry and practising professionals who wish to specialise in the design, analysis and construction of oil and gas installations.

Aims

With high demand for qualified oil and gas engineers, graduates enter a global job market and can expect exciting career prospects - a trend that looks likely to continue for years to come.

As the industry now seeks the rapid drilling and commissioning of new wells to meet energy demands, along with major investment in heavy oils and shale oil and gas, skilled engineers who can rapidly design and commission oilfield installations will be the backbone for growth in this industry. It is precisely this type of engineer that Brunel’s programme will develop.

A distinguishing feature of the course is its ambition to instil systems thinking, by treating structures and their operating environment holistically as a system – helping graduates develop the skills to address a wide range of complex engineering problems rapidly.

Course Content

The programme duration will be 12 months for full-time study, or 24 months for part-time.

The taught part of the programme will take place during the Autumn and Spring terms over 24 weeks. Students will be encouraged to start planning their dissertation at the beginning of the programme. During the Summer term, students will be expected to focus their effort on their dissertation project, researching the dissertation topic full-time. Part-time students will be allowed an extended period to execute their dissertation project in line with the overall programme duration. However, they will be expected to devote an equivalent of at least one day per week on their dissertation project.

This programme has been developed with extensive consultation with the industry. It will be delivered by Brunel staff members and by industrial specialists. The programme structure is shown below and comprises two parts:

Core modules: The taught part of the course (Part 1) worth 120 credits. This includes a set of compulsory modules that provides fundamentals of structural and process engineering, and focuses on providing an understanding of how to design oil and gas structures such as pipelines, offshore and onshore to withstand internal loading induced by complex internal flows of oil and gas and also external loads such as waves and wind. Throughout fundamental mathematical, computational, experimental, testing and inspection techniques as well as codes of practice are taken into account. Civil engineering and construction aspects are also taught.

Dissertation: Your dissertation project forms Part 2 of the programme and is worth 60 credits.

Full-time (12 months) MSc and PGDip modules include:

Petroleum Production Fundamentals
Applied Engineering Mathematics
Structural Materials
Structural Integrity and FEA
Multiphase Flow Fundamentals and Flow Assurance
Dynamics of Petroleum Structures
Design and Construction of Installations
Reliability Engineering and Risk Management

Term Three (MSc Only):

Dissertation
Students will conduct a major piece of research (c. 30,000 words) in an area of oil and gas engineering.

Delivery will take place in block mode teaching with each module requiring a week-long teaching schedule. Laboratory sessions will take place at specialist facilities in the week following the module delivery and will last for up to three days each.

Part-time (24 months) MSc and PGDip:

In the part-time mode, four taught modules are taken each year with the completion of the dissertation following in term three of the second year.

Full-time and part-time (12 and 24 months) PGCert:

Students must take the Design and Construction Installations and Petroleum Production Fundamentals modules and select any other two modules.

Work Placements

Brunel has a purpose built award-winning Professional Development Centre with over 30 staff, including specialist industry consultants. The Placement service includes CV writing, one-to-one guidance and mock interviews. Brunel was named ‘Best University Placement Service’ at the Rate My Placement Awards in 2012.

Teaching

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

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

Many elements of coursework involve, and reward, the use of initiative and imagination. Some of the projects may be linked with research in the College's research institutes.

Assessment

Each module is assessed either by formal examination, written assignments and laboratories or a combination of these. Cut-off dates for receipt of assignments are specified at the beginning of the academic year. Examinations are normally taken in December and May.

Special Features

Students will be able to access laboratory facilities at the recently formed NSIRC site which are extensive, modern and well equipped.

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

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

We have excellent links with business and industry in the UK and overseas. This means:
Brunel degrees are designed to meet the needs of industry and the market-place;
The latest developments in the commercial world feed into your course;
You have greater opportunity at the dissertation stage of conducting a dissertation in industry;
We have more contacts to help you find a job when you graduate.

Accreditation

This course has been designed and developed in close consultation with industry and the Oil and Gas Engineering MSc is accredited by the Institute of Materials, Minerals and Mining (IOM3). We are seeking accreditation with the following professional bodies:

Institution of Mechanical Engineers
Society of Petroleum Engineers
Institution of Chemical Engineers

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The MSc in Petroleum and Gas Engineering is a programme that encompasses a wide range of specific knowledge, in particular Formation Evaluation, Reservoir Engineering and Reservoir Simulation. Read more

Why take this course?

The MSc in Petroleum and Gas Engineering is a programme that encompasses a wide range of specific knowledge, in particular Formation Evaluation, Reservoir Engineering and Reservoir Simulation. It also gives you the ability to appraise and select the appropriate technologies for safe production and for enhancing the recovery of hydrocarbon oil and gas, as pertinent to the modern petroleum industry.

This course is planned to respond to the need for specialists in upstream petroleum engineering systems and management by meeting the growing skills shortage of people, with core knowledge in this field. It provides relevant, up-to-date skills that will equip graduates and working professionals in the advanced concepts of reservoir and field development. It supports career development for the industry as well as career change.

What will I experience?

On this course you can:

Undertake field work in a number of locations in the UK
Undertake an industry relevant project working with industry

The SPE Chapter is organised managed and run by the students for the students under the guidelines of SPE international. The Chapter regularly host events and guest lecturers from the industry as well as showcasing all SPE UK webinars. It also hosts several field trips to near-by sites and organises careers seminars.

What opportunities might it lead to?

You are likely to gain work in:

Oil and gas exploration
Reservoir modelling
Engineering and management
Drilling and production
Product marketing
Management and finance

You will thrive in an exciting developing research environment, where your project can involve aspects of research in close collaboration with academic staff and industrial partners, both in the UK and abroad.

Module Details

You will study six units on this course plus an individual project.

The course concludes with an individual project in which you apply your knowledge to a significant, in-depth piece of analysis or design. Your projects will be tailored to your individual interests and may take place in our own laboratories or, by agreement, in industry. You will have the opportunity to attend seminars on project planning/management, ethics, health and safety, report writing, library skills and career management, to help prepare for the demands of the course and for future study or employment.

Core units include:

Petroleum Fundamentals and Exploration
Reservoir Characterisation
Reservoir Engineering and Simulation
Well Engineering
Unconventional Resources
Energy Economics Management and Risk Analysis

Plus an individual project.

Programme Details

You will be taught using a mixture of lectures, tutorials, laboratory sessions and project work. Each unit typically has up to 48 hours scheduled for lectures and supervised activities. In addition, you will need to spend significant time in our drilling, petroleum and computer laboratories, as well as in private study directed by lecturers.

Lecturers spend part of the scheduled time in the tutorial sessions to provide further opportunities to consolidate your learning and support you with any additional learning, for example with technical aspects of the course. You will also have a personal tutor who will support your engagement with other academic matters to enhance your learning as well as personal and professional development.

Assessment is geared towards the subject matter in a way that encourages a deeper understanding and allows you to develop your skills. It includes examinations, assessed coursework, laboratory work and a dissertation that can often be linked with industry.

Student Destinations

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 in all aspects of the Petroleum upstream industry. It is an excellent preparation for a successful career in this expanding and dynamic field.

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The MSc Oil and Gas Finance course is a one year postgraduate course designed to offer advanced study of finance in relation to oil and gas projects and ventures. Read more
The MSc Oil and Gas Finance course is a one year postgraduate course designed to offer advanced study of finance in relation to oil and gas projects and ventures.

With growing demand for energy and a challenging external financial environment, the course responds to the need for specialist finance professionals versed in financial decision making in the petroleum industry. Building on RGU’s expertise in oil and gas and close association with the industry in Aberdeen (including a new Oil and Gas Institute), the course is intended to provide students with the opportunity to develop the relevant knowledge and skills to engage with the industry’s complex finance issues.

It emphasises practical problem-solving, analytical financial modelling and essential transferrable skills in researching, quantifying, evaluating and managing the financial risks and rewards of oil and gas investments. The course is a useful preparation for a career in the oil and gas industry and related roles in energy and financial markets.

Visit the website https://www.rgu.ac.uk/business-management-and-accounting/study-options/postgraduate/accounting-and-finance/msc-oil-and-gas-finance

Course detail

The course has been meticulously designed to meet the demands of the sector and to tackle a full range of topics. Specifically, the course offers a dynamic mix of theoretical and practical elements required for effective financial management and investment decision making within the oil and gas industry. The MSc Oil and Gas Finance builds on RGU’s multidisciplinary expertise across the oil and gas value chain to explore the role of the finance and investment function within this spectrum as a means for creating value.

In Semester 1 students study two generic finance modules and two additional modules to provide quantitative finance basis and an understanding of specific corporate finance considerations for the oil and gas industry. Semester 2 further develops the finance and industry specific skills. The skills required for an extensive study into a particular aspect of oil and gas finance will also be developed during this semester. These are essential in Semester 3 when each student will be required to prepare and produce a self-directed dissertation.

Semester 1

• Oil and Gas Management
• Finance Theory
• Quantitative Methods for Finance
• Energy Finance

Semester 2

• Research Methods
• Petroleum Economics and Asset Management
• Financial Modelling and Valuation of Oil and Gas Projects
• Oil and Gas Markets and Derivatives

Semester 3

• Dissertation

Format

You will learn through a combination of lectures, seminars and workshop sessions. These comprise of a mix of group study, discussion, simulation and presentations of findings by teams and individuals. You will work as an individual and also as part of a team on case studies, team activities, presentations and discussions.

Teaching is a mixture of case studies, simulations, guest seminars, lectures, tutorials, computer labs, video footage, and individual or group work. Access to our virtual learning environment, CampusMoodle, is also provided giving you access from home to the learning materials (including videos, e-books and journals).

Course Benefits

You will gain knowledge and practical skills in financial modelling, analysis, synthesis, evaluation and problem solving, through active simulation assignments and group discussions in seminars and tutorials culminating in the dissertation. We aim to produce independent thinkers who are ready and able to address the complexities and challenges of oil and gas finance faced by organisations. In collaboration with RGU’s International Oil and Gas Institute and the oil and gas industry in Aberdeen, this course is a suitably paced curriculum for providing students with the means for acquiring these relevant knowledge and skills. The unique modules and the different desirable skills and knowledge they offer are reinforced by the integrative elements of the extended dissertation and the inputs from industry. Overall, you will learn to:

• Demonstrate an advanced understanding of relevant theories, concepts, principles and frameworks of finance and a critically reflective knowledge of the basis and rationale for evaluating, analysing and synthesising key contemporary issues oil and gas industry finance.

• Demonstrate knowledge and critical understanding of appropriate analytical and modelling tools, mechanisms and markets for securing finance (through equity, debt or other suitable vehicles), optimising return and minimising risk in oil and gas investments (including derivatives).

• Demonstrate extensive detailed knowledge of the oil and gas industry data and information sources (in context within the full energy spectrum) and relevant research methods for generating and communicating original, academic, professional or practical and creative solutions to problems and issues in the area of finance.

• Critically appraise and capture the implications of complexities of oil and gas industry’s cost sharing arrangements, joint venture agreements, tax rules, environmental regulations, economic/fiscal arrangements and financial reporting standards and the international dimension of these issues in the financing/investing decision.

• Develop and authoritatively use financial tools and methodologies to extend knowledge of and critically evaluate issues in the international oil and gas industry.

• Demonstrate originality and creativity towards explaining, providing an informed opinion and advising main stakeholders on international oil and gas finance and markets.

• Provide critical input for and meticulously maintain cross-functional linkages for use of the finance function within projects in the oil and gas domain and the extended business environment.

Placements and accreditations

Our oil and gas courses are accredited by the Energy Institute and we expect that the MSc Oil and Gas Finance course will join this list in recognition of its quality and relevance to the industry. The course also shares some finance modules with the MSc Financial Management course that is recognised by the Chartered Financial Analyst Institute in their University Recognition Program

Careers

A postgraduate qualification in Oil and Gas Finance provides the graduate with extensive opportunities for a career with local, national and international companies in the fields of oil and gas finance, policy and economics.

The course structure will provide a breadth of coverage to allow graduates to pursue a variety of roles and careers in the oil and gas industry within, for example, energy companies, government departments or regulatory bodies and parastatals, consulting and research companies, and various roles in energy and financial markets and institutions, including oil and gas trading, financial analysis, equity research, benchmarking and intelligence. The qualification can also be a stepping stone for advanced research degrees (e.g., PhD) in finance.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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

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

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

Key Features of MRes in Computer Modelling in Engineering

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

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

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

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

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

Modules

Modules on the Computer Modelling in Engineering programme typically include:

• Finite Element and Computational Analysis

• Numerical Methods for Partial Differential Equations

• Solid Mechanics

• Advanced Fluid Mechanics

• Dynamics and Transient Analysis

• Communication Skills for Research Engineers

• MRes Research Project

Accreditation

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

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

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

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

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

Links with Industry

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

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

Student Quotes

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

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

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

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

Careers

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

Research

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

World-leading research

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

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

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

Research Environment at Swansea ranked 2nd in the UK

Research Impact ranked 10th in the UK

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



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

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

Key features

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

Course details

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

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

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

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

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

Optional modules
-BPIE335 Mechanical Engineering Related Placement

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

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

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

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

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

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The modern society relies on the work of Chemical Engineers who develop and design the processes that make the useful products for the society by efficient use and management of resources including water and energy while controlling health and safety procedures and protecting the environment. Read more
The modern society relies on the work of Chemical Engineers who develop and design the processes that make the useful products for the society by efficient use and management of resources including water and energy while controlling health and safety procedures and protecting the environment.

Chemical Engineering provides essential tools based on the concept of sustainability and low carbon footprint for changing raw materials into useful products in a safe and cost effective way. Chemical Engineers understand how to alter the chemical, biochemical or physical state of a substance, to create everything from health care products (face creams, shampoo, perfume, drugs) to food (dairy products, cereals, agro-chemicals) and water (desalination for freshwater) to energy (petroleum to nuclear fuels).

Your study at MSc level at Bradford will be a foundation for life aimed at developing a deep understanding of advanced technical principles, analytical tools, and competence in their application together with a wide range of management, personal and professional skills. The course will provide you with essential tools based on the concept of sustainability and low carbon footprint for changing raw materials into useful products in a safe and cost effective way.

Why Bradford?

Flexibility of career path – Choice of three routes:
-Chemical Engineering - advanced chemical engineering and process technology skills for exciting and challenging careers in chemical and process industries
-Petroleum Engineering -matches the needs in different areas of oil and gas production and in medium/small operating and consulting companies
-Polymer Engineering - design and operation of processes to engineer materials with advanced properties leading to careers in diverse manufacturing sectors

Research Strengths - Internationally acclaimed research activities in the following areas:
-Chemical and Petrochemical Engineering
-Polymers
-Energy
-Water
-Pharmaceutical engineering
-Coating and advanced materials engineering

Rankings

Top Five: Chemical Engineering at the University of Bradford is ranked 5th in the UK in the Guardian University League Table 2017/

[[Modules
MSc Chemical & Petroleum Engineering (Chemical Engineering Background)
-Desalination Technology
-Materials & Manufacturing Processes
-Transport Phenomena
-Design Optimisation
-Computational Fluid Dynamics
-Upstream Production & Refinery Operations
-Research Skills
-Food & Pharmaceutical Processes Engineering
-Polymer Engineering
-Risk Management
-Engineering Computational Methods
-MSc Project

MSc Chemical & Petroleum Engineering (non-Chemical Engineering Background)
-Desalination Technology
-Transport Phenomena
-Chemical Engineering Practice
-Material & Manufacturing Processes
-Design Optimisation
-Computational Fluid Dynamics
-Upstream Production & Refinery Operations
-Research Skills
-Food & Pharmaceutical Processes Engineering
-Polymer Engineering
-Risk Management
-Engineering Computational Methods
-MSc Project

Career support and prospects

The University is committed to helping students develop and enhance employability and this is an integral part of many programmes. Specialist support is available throughout the course from Career and Employability Services including help to find part-time work while studying, placements, vacation work and graduate vacancies. Students are encouraged to access this support at an early stage and to use the extensive resources on the Careers website.

Discussing options with specialist advisers helps to clarify plans through exploring options and refining skills of job-hunting. In most of our programmes there is direct input by Career Development Advisers into the curriculum or through specially arranged workshops.

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