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The programme is delivered on campus full time and online part time to give you flexible study options. If you want to join the growing companies operating in the subsea industry in Aberdeen or internationally or set up your own company this programme will provide you with a high level of technical training. Read more

Your programme of study

The programme is delivered on campus full time and online part time to give you flexible study options. If you want to join the growing companies operating in the subsea industry in Aberdeen or internationally or set up your own company this programme will provide you with a high level of technical training

The Master of Science in Subsea Engineering seeks to prepare highly-trained, highly-qualified, business-aware graduates that can make an immediate impact in their chosen career, and who can address the need for key skills in the subsea industry. Subsea Engineering at the University of Aberdeen has a unique relationship with the subsea industry both locally and internationally, and the programme receives contributions from local industrial organisations in terms of relevant and up-to-the minute contributions to teaching, and support in the specification of group and individual projects.

Aberdeen is the heart of the European oil and gas industry, an international hub for companies engaged in Subsea Engineering. A degree from the University of Aberdeen puts you in a unique position to develop business links alongside of learning and developing international skills within the flexible, modular programme.

Courses listed for the programme

Semester 1
Offshore Structures and Subsea Systems
Subsea Control
Subsea Integrity
Subsea Construction, Inspection and Maintenance

Semester 2

Pipelines and Soil Mechanics
Risers Systems and Hydrodynamics
Flow Assurance
Engineering Risk and Reliability Analysis

Semester 3
Subsea Engineering Individual Project

Find out more detail by visiting the programme web page
https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/317/subsea-engineering/

Online delivery:
https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1082/subsea-engineering/

Why study at Aberdeen?

• Aberdeen is a recognised hub and centre of excellence in Subsea, as Europe's energy capital and 'World Energy City'
• The programme is accredited by the Institute of Marine Engineering, Science and Technology (MarEST) and Institution of
Mechnical Engineers (IMechE). the Institution of Civil Engineers (ICE), the Institution of Structural Engineers (IStructE), The
Institute of Highway Engineers (IHE) and Chartered Institution of Highways and Transportation (CIHT)
• We are able to draw upon knowledge and industry experience within the subsea sector on our doorstep to challenge you
• The programme is very employable with graduates moving to CEO level

Where you study

• University of Aberdeen
• Full Time
• September
Online
• 5 months, 27 months or 30 months
• Part Time
• September or January

International Student Fees 2017/2018

Find out about fees for campus delivery:
https://www.abdn.ac.uk/study/international/tuition-fees-and-living-costs-287.php

Find out about online fees:
https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1082/subsea-engineering/

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page
https://www.abdn.ac.uk/study/postgraduate-taught/finance-funding-1599.php
https://www.abdn.ac.uk/funding/

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:
https://abdn.ac.uk/study/student-life

Living costs
https://www.abdn.ac.uk/study/international/finance.php

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The Masters in Subsea Engineering is aimed at engineers who already have some relevant offshore oil and gas experience and high calibre graduates who wish to enhance their employability in the subsea industry. Read more
The Masters in Subsea Engineering is aimed at engineers who already have some relevant offshore oil and gas experience and high calibre graduates who wish to enhance their employability in the subsea industry.

A broad range of topics are covered including well engineering and topside processing facilities as well as the core areas of subsea engineering including: subsea systems, subsea control, pipelines & risers, corrosion and subsea reliability. Current and emerging technologies and their design limitations as applied to deepwater, long tie-back and HP/HT wells are also covered.

This subsea engineering course has been developed and is supported by experienced oil and gas industry professionals using current standards and fundamental engineering practices.

Visit the website https://www.rgu.ac.uk/engineering/engineering-study-options/postgraduate/subsea-engineering

Modules

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

•The Oceans, Operability and Humans in the Ocean
•Wells
•Facilities
•Subsea Systems

Exit Award: PG Cert Subsea Engineering

•Subsea Reliability and Intervention
•Subsea Pipeline and Riser Design
•Materials and Corrosion Science
•Control and Telemetry Systems

Exit Award: PG Dip Subsea Engineering

•Individual Project Report

Award: MSc Subsea Engineering

Placements and accreditation

Course accredited by the Energy Institute

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 Western Australian offshore oil and gas industry is moving to deeper water. Read more
The Western Australian offshore oil and gas industry is moving to deeper water.

The recent introduction of Floating LNG facilities (FLNG) offshore WA and the potential for future deep water, remote oil and gas production requires the development of new deep water technologies to bring these hydrocarbon reserves to shore.

This course has been designed to meet the need for engineers who possess the high level skill-sets that the subsea industry requires.

It is tailored to provide graduate entry for legal registration purposes, and supports the needs of the existing workforce through a series of advanced units in offshore processing, geomechanics and hydrodynamics.

Career opportunities

As a subsea graduate you may pursue a career with various members of the oilfield industry including major oil companies, subsea equipment suppliers and service companies.

Credit for previous study

Application for credit for recognised learning (CRL) are assessed on an individual basis. The successful completion of the Graduate Diploma in Subsea Engineering will also be assessed for credit exemptions.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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Subsea engineering plays a vital role in the exploitation of oil and gas resources. The subsea engineering industry help to specify the curriculum so we meet their requirements. Read more
Subsea engineering plays a vital role in the exploitation of oil and gas resources. The subsea engineering industry help to specify the curriculum so we meet their requirements. The course is designed for you as an experienced or recently graduated engineer who wants to develop your subsea knowledge.

Your teaching modules operate in short 'intensive schools' with time after the module to complete the assignments, where applicable. They include:
-Input from industry experts
-Site visits
-Industry-based projects
-Teaching from other disciplines

Teaching consists of lectures, practical sessions, seminars and personal supervision covering a variety of topics in subsea engineering. The degree is taught using a mix of the academic staff from the School of Marine Science and Technology as well as visiting lecturers and experts from industry.

You will undertake a research project leading to a dissertation. This may be a critical review and/or computational or experimental project using the University's world leading testing facilities. The research project is supported by an academic supervisor and may be conducted with an industrial partner which, where appropriate, may be your employer.

Delivery

Ten taught modules worth 120 credits are delivered in blocks through semester one and/or two. A dissertation or research project, worth 60 credits, is undertaken across the three semesters.

Accreditation

Our course is accredited by the Royal Institution of Naval Architects (RINA) and the Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council. This means that you are automatically recognised as satisfying the educational requirements leading to Chartered Engineer (CEng) status.

The Royal Institution of Naval Architects is an internationally renowned professional institution whose members are involved at all levels in the design, construction, maintenance and operation of marine vessels and structures. Members of RINA are widely represented in industry, universities and colleges, and maritime organisations in over 90 countries.

IMarEST is the first Institute to bring together marine engineers, scientists and technologists into one international multi-disciplinary professional body.

Our accreditations give you an additional benchmark of quality to your degree, making you more attractive to graduate employers. It can also open the door to higher-level jobs, most of which require Chartered Engineer status.

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Subsea engineering focuses on the deepwater issues of oil and gas exploitation. Operations have moved from relatively shallow water to depths that now demand totally different engineering solutions. Read more
Subsea engineering focuses on the deepwater issues of oil and gas exploitation. Operations have moved from relatively shallow water to depths that now demand totally different engineering solutions. The Offshore and Ocean Technology with Subsea Engineering MSc course addresses both the hardware that is used subsea, such as wellheads and separators, as well as important issues such as field layout, flow assurance and installation/maintenance.

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As oil is required to be extracted in deeper and rougher seas, new demands continue to be imposed on design development as well as new installation and inspection techniques. Read more

Why this course?

As oil is required to be extracted in deeper and rougher seas, new demands continue to be imposed on design development as well as new installation and inspection techniques.

This course is for graduates in naval architecture, offshore engineering, mechanical engineering and related disciplines who want to gain advanced knowledge of subsea systems, designs and installation. This includes systems and equipment such as:
- pipelines
- wellheads
- drilling rigs
- riser & mooring systems

See the website https://www.strath.ac.uk/courses/postgraduatetaught/subseapipelineengineering/

You’ll study

Your course will be made up of three components:
- Instructional modules
- Group project
- Individual project (MSc only)

- Group project
You’ll be part of a group of three to five people in ‘consultant teams’ for 10 weeks addressing a practical engineering problem. You’ll then have the opportunity to present the report to a panel of industrial experts.
This project will enhance your team working and communication skills. It also provides valuable access to industrial contacts.
It will give you a good understanding of all aspects of research work. In addition, the technological study must be accompanied by survey of the relevance and applicability of the findings to the maritime industries at large.
You'll learn efficient ways to gather information, to distribute workload and to delegate amongst the group, to analyse their results and to appreciate the broader implications of the whole project. In-depth technological studies will be accompanied by increasingly important competence in managerial skills, quality assurance and a sound appreciation of the economic, political, social and environmental issues crucial to professional success.

- Individual project (MSc only)
MSc students will take on an individual dissertation on a topic of their own interest. The aim of the individual project is to develop your research skills and to combine many of aspects learned from other modules within a specific topic. This will be achieved by you carrying out work into a particular topic relating to your chosen theme and preparing a dissertation.

Facilities

We have excellent teaching facilities including:
- Catalina - our departmental racing yacht
- Kelvin Hydrodynamics Lab - the largest ship-model experiment tank in any UK university
- Towing/wave tank exclusively for teaching purposes
- Marine engine laboratory
- Hydrogen fuel cell laboratory
- Cutting-edge computer facilities
- Industry standard software

Teaching staff

You’re taught by dedicated staff with diverse expertise and research activities.

Accreditation

All of our degree programmes are and will be (2014) professionally accredited by the Royal Institution of Naval Architects (RINA) and The Institute of Marine Engineering, Science and Technology, (IMarEST) on behalf of the UK Engineering Council.

Student competitions

The department of Naval Architecture, Ocean and Marine Engineering (NAOME) supports and promotes students in various competitions and awards, from cash bursaries for top performing students to the highest of awards from international organisations.

In recent years students from NAOME have been triumphant in the following high profile competitions:
- Science, Engineering & Technology Student of the Year (SET Awards)
- Best Maritime Technology Student (SET Awards)
- Double winner of BP’s Ultimate Field Trip Competition
- Strathclyder of the Year

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

There are two teaching periods (semesters) of 12 weeks each. Some of the second semester subjects are taught over eight weeks. This is so that you can devote as much time as possible to your individual project work.

Course modules are delivered in form of formal lectures supported with tutorials and laboratory experiment.

You’re required to attend an induction prior to the start of the course.

- Guest lectures
During term time, we arrange weekly seminars in which leaders and pioneers of the maritime, oil and gas and marine renewables industries visit the department and present to students. This is a great way of supplementing your education with the latest developments and gaining industry contacts for your future career.
Industrial visits are also made to a variety of companies.

Assessment

There are two types of method for module assessment. One is course work assessment only, the other is examination assessment. For examined modules the final assessment mark consists of 30 to 40% course work and 60 to 70% examination.

Careers

Offshore hydrocarbon activities are moving into area of water depths exceeding 2000m. Subsea drilling, production and control systems are becoming much more important. Therefore, subsea engineers are in great demand world-wide.

- Where are they now?
100% of graduates are in work or further study**

**Based on the results of the national Destinations of Leavers from Higher Education Survey (2010/11 and 2011/12).

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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This Masters in Geospatial & Mapping Sciences focuses on understanding the theory and practice of geospatial data collection, land and hydrographic surveying, data and information quality, applications of survey information, and research and development in the field of geomatics. Read more
This Masters in Geospatial & Mapping Sciences focuses on understanding the theory and practice of geospatial data collection, land and hydrographic surveying, data and information quality, applications of survey information, and research and development in the field of geomatics. It is strongly endorsed by industry, accredited by the RICS and has an excellent employment record.

Why this programme

◾This programme meets the academic requirements for membership of relevant professional bodies and is accredited by the Royal Institute of Chartered Surveyors (RICS) and the Chartered Institution of Civil Engineering Surveyors.
◾If you are seeking a career in geomatics: land and engineering surveying; hydrographic surveying; land registration/cadastre and LIS; photogrammetric and remote sensing engineering; management of geospatial information; this programme is for you.
◾The School of Geographical and Earth Sciences is proud to announce that it is ranked 28th in the world (QS World Rankings 2016).
◾The School is consistently ranked amongst the top 10 in the UK and top 5 in Scotland, recently achieving 2nd in Scotland and 9th in the UK (Guardian University Guide 2017).
◾The MSc in Geospatial and Mapping Sciences is an industry-sponsored programme and has been developed in close collaboration with industry to meet global demand for professionals in this field.
◾You will benefit from access to the latest surveying equipment and software, including RTK GPS and terrestrial laser scanners.
◾Textbooks for semester 1 courses are included in fees; and you will attend a week long practical surveying course (included in fees).

Programme structure

Semester 1 – 60 credits
◾Fundamentals of Geomatics GEOG5008 (20 credits)
◾Principles and Practice of Land Surveying GEOG5017 (20 credits)
◾Principles of GIS GEOG5019 (10 credits)
◾Topographic Mapping and Landscape Monitoring GEOG5025 (10 credits)

Semester 2 – 60 credits
◾Applied Land Surveying GEOG5099 (10 credits)
◾Engineering Surveying GEOG5007 (10 credits)
◾Geodesy & GNSS GEOG5012 (10 credits)
◾Hydrographic Survey GEOG5014 (10 credits)
◾Research & Professional Issues in Geomatics GEOG5021(10 credits)

One of:
◾Applied Hydrographic Surveying GEOG5098 (10 credits)
◾Geospatial Data Infrastructures and Land Administration GEOG5013 (10 credits)

Summer – 60 credits
◾MSc Project GEOG5085P (60 credits)

Career prospects

Career opportunities include land surveyor, engineering surveyor, hydrographic surveyor, GIS specialist, environmental consulting. There is currently a very high demand for surveyors, especially in hydrographic survey, in support of offshore oil and renewable energy engineering and maintenance. Several of the key employers visit us each year to recruit students. In addition to the offshore energy industry, land surveyors are in demand in many parts of the world to support mining operations, major civil engineering projects and to provide surveying services for Land Registration. A strong background in data capture, datums and co-ordinate systems, and data processing can also be of value in the GIS and environmental management sectors.

Graduates of this programme have gone on to positions such as:
Offshore Surveyor at NCS Survey
Hydrographic Surveyor at Subsea 7
Offshore Surveyor at Subsea 7
Analyst at Morgan Stanley
Offshore Surveyor at UTEC
Offshore Surveyor at iSurvey Offshore Ltd
Research Scientist Associate at a university
Fellow at European Organisation for Nuclear Research
Offshore Surveyor at Marine Offshore Designer
Hydrographic Surveyor at UTEC
Assistant Land Surveyor at UTEC Star net
Trainee Surveyor at Fugro
Hydrographic Surveyor at Harkand Andrews Survey
Offshore Supporter at Subsea 7
Offshore Surveyor at Fugro
Offshore Hydrographic Surveyor at UTEC
Graduate Supervisor at AECOM
GIS Technician at Farazamin Company Tehran
Graduate Surveyor at Met Geo Environmental Ltd.

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This MSc in Petroleum Production Engineering is aimed at practising oilfield engineers and managers who already have at least two years oil and gas industry experience. Read more
This MSc in Petroleum Production Engineering is aimed at practising oilfield engineers and managers who already have at least two years oil and gas industry experience.

The course has been developed and is supported by experienced industry professionals, using authentic industry applications software, technical standards and engineering practices.

This full-time or distance learning degree in Petroleum Production Engineering covers wells and related production facilities, whether on land, offshore or subsea.

Each study 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-taught-full-time/petroleum-production-engineering

Stage 1

•Subsurface
•Wells
•Facilities
•Business Essentials

Exit Award: PgCert Oil and Gas Engineering

Stage 2

•Production System Modelling
•Production Operations
•Completions and Subsea Systems
•Petroleum Economics & Asset Management

Exit Award: PgDip Petroleum Production Engineering

Stage 3

•Individual Project Report

Award: MSc Petroleum Production 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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Our Offshore Engineering MSc provides you with the specialist education necessary to enter the offshore engineering industry. You will specialise in the design, dynamic and strength analysis of fixed and floating offshore oil and gas platforms. Read more
Our Offshore Engineering MSc provides you with the specialist education necessary to enter the offshore engineering industry. You will specialise in the design, dynamic and strength analysis of fixed and floating offshore oil and gas platforms. You will also study subsea systems, including marine systems to produce renewable energy.

Teaching consists of lectures, practical sessions, seminars and personal supervision covering a variety of topics in offshore engineering. You also choose an individual dissertation project. This may be theoretical, experimental or the development of a simulation model of hydrodynamics and/or structural strength of offshore systems. Research strengths include:
-Hydrodynamics of deepwater offshore structures
-Pipeline and subsea systems
-Structural analysis of offshore structures
-Dynamics of mooring and marine riser systems

You will also benefit from participating in projects sponsored directly by industry partners whenever they are available.

Delivery

Seven taught modules worth 100 credits are delivered through semester one and/or two. A dissertation research project, worth 80 credits, is undertaken across the three semesters.

The course is also available with a preliminary year if you do not meet the entry criteria for the one-year MSc course.

Accreditation

Our course is accredited by the Royal Institution of Naval Architects (RINA) and the Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council. This means that you are automatically recognised as satisfying the educational requirements leading to Chartered Engineer (CEng) status.

The Royal Institution of Naval Architects is an internationally renowned professional institution whose members are involved at all levels in the design, construction, maintenance and operation of marine vessels and structures. Members of RINA are widely represented in industry, universities and colleges, and maritime organisations in over 90 countries.

IMarEST is the first Institute to bring together marine engineers, scientists and technologists into one international multi-disciplinary professional body.

Our accreditations give you an additional benchmark of quality to your degree, making you more attractive to graduate employers. It can also open the door to higher-level jobs, most of which require Chartered Engineer status.

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The goal of structural engineering is to predict the performance of structures under extreme events. This Masters in Structural Engineering provides you with a range of methods to analyse and design structures with quantifiable reliability over their design life. Read more
The goal of structural engineering is to predict the performance of structures under extreme events. This Masters in Structural Engineering provides you with a range of methods to analyse and design structures with quantifiable reliability over their design life.

Why this programme

◾If you intend to pursue a career in this specialist area of civil and structural engineering, in design consultancies and elsewhere, or if you want to transfer from other engineering disciplines, this programme is designed for you.
◾This programme offers a curriculum that is relevant to the needs of industry, designed to provide the advanced education required for the structural engineers of tomorrow.
◾The goal of structural engineering is to predict the performance of structures. This programme empowers future engineers with a range of methods to analyse and design structures with quantifiable reliability over their design life.
◾The University of Glasgow’s School of Engineering has been delivering engineering education and research for more than 150 years and is the oldest School of Engineering in the UK.

Programme structure

Modes of delivery of the MSc in Structural Engineering include lectures, seminars, tutorials, a group design project and individual projects.

Core courses
◾Advanced structural analysis and dynamics
◾Applied engineering mechanics
◾Computational modelling of nonlinear problems
◾Structural concrete
◾Structural design
◾Advanced soil mechanics
◾Structural engineering preliminary research project
◾Structural engineering review project
◾Structural design project

MSc students undertake an additional individual project.

Industry links and employability

If you intend to pursue a career in this specialist area of civil and structural engineering, in design consultancies and elsewhere, or if you want to transfer from other engineering disciplines, this programme is designed for you. It provides the advanced education required for the structural engineers of tomorrow.

Career prospects

This is a new programme which will be delivered the first time in 2016/17. However, it is a continuation of a former Structural Engineering and Mechanics MSc programme. Graduates from the former Structural Engineering and Mechanics programme have gone on to positions such as:

Graduate Structural Engineer at Wood Group PSN
Research Fellow at Fraunhofer Institute High Speed Dynamics
Graduate Structural Engineer at Wood Group
Graduate Structural Engineer at Design ID
Structure Engineer at Fujian United Benefit Broad Sustainable Building Technology
Structural Engineer-Subsea at a structural engineering company
Real Estate Assistant at Icade
Graduate Structure Engineer at P2ML
Graduate Engineer at Technip
Civil Engineering Technical Engineer at Hongrun Construction Corporation
Subsea Project Engineer at Halliburton
Bid and Building Engineer at Jingzhen Construction and Supervision Co.
Graduate Engineer at Reinertsen.

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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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Running for over 35 years, this fully accredited MSc programme builds advanced capabilities in specialist aspects of bridge engineering. Read more
Running for over 35 years, this fully accredited MSc programme builds advanced capabilities in specialist aspects of bridge engineering.

Successful completion of this programme will aid you in pursuing a career as a bridge engineer with a consultancy, a specialist contractor or a local authority.

PROGRAMME OVERVIEW

Graduate students will find the programme of substantial use in developing their knowledge and skills base for bridge analysis, design and management.

The programme also offers the opportunity for practising bridge engineers to update their knowledge of current design and assessment codes and guidelines, become familiar with developments in new techniques for the design, construction and management of bridges.

The Bridge Engineering programme encompasses a wide range of modules addressing the whole life-analysis of bridge structures from design to end-of-life.

Optional modules from some of our other study streams are also offered, covering structural engineering, geotechnical engineering, water engineering, construction management, and infrastructure engineering and management.

Graduates are highly employable and may progress to relevant specialist PhD or EngD research programmes in the field.

PROGRAMME STRUCTURE

This programme is studied over either one year (full-time) or between two and five years (part-time or distance learning). It consists of eight taught modules and a dissertation project.

This 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 following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Bridge Engineering Group Modules
-Bridge Deck Loading and Analysis
-Prestressed Concrete Bridge Design
-Durability of Bridges and Structures
-Steel and Composite Bridge Design
-Long-Span Bridges

Structural Engineering Group Modules
-Steel Building Design
-Space Structures
-Structural Mechanics and Finite Elements
-Subsea Engineering
-Concrete Building Design
-Structural Safety and Reliability
-Earthquake Engineering
-Design of Masonry Structures

Geotechnical Engineering Group Modules
-Advanced Soil Mechanics
-Energy Geotechnics
-Geotechnical Structures
-Soil-Structure Interaction
-Foundation Engineering

Construction Management Group Modules
-Construction Management and Law
-Construction Organisation
-Project and Risk Management

Infrastructure Engineering and Management Group Modules
-Infrastructure Investment and Financing
-Infrastructure Interdependencies and Resilience
-Infrastructure Asset Management
-Sustainability and Infrastructure

Water and Environmental Engineering Group Modules
-Environmental Health
-Water Treatment
-Wastewater Treatment
-Applied Chemistry and Microbiology
-Pollution Control
-Groundwater Control
-Regulation and Management
-Water Resources Management and Hydraulic Modelling
-Water Policy and Management
-Dissertation
-Dissertation Project

EDUCATIONAL AIMS OF THE PROGRAMME

The programme aims to provide graduates with:
-A comprehensive understanding of engineering mechanics for bridge analysis
-The ability to select and apply the most appropriate analysis methodology for problems in bridge engineering including advanced and new methods
-The ability to design bridge structures in a variety of construction materials
-A working knowledge of the key UK and European standards and codes of practice associated with the design, analysis and construction of bridge structures and the ability to interpret and apply these to both familiar and unfamiliar problems
-The necessary technical further learning towards fulfilling the educational base for the professional qualification of Chartered Engineer

PROGRAMME LEARNING OUTCOMES

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

Knowledge and understanding
-A knowledge and understanding of the key UK and European standards and codes of practice relating to bridge engineering
-The ability to interpret and apply the appropriate UK and European standards and codes of practiceto bridge design for both familiar and unfamiliar situations
-A knowledge and understanding of the construction of different types of bridge structures using different types of materials (e.g. concrete and steel)
-A knowledge and understanding of the common and less common materials used in bridge engineering
-A comprehensive understanding of the principles of engineering mechanics underpinning bridge engineering
-The ability to critically evaluate bridge engineering concepts
-The ability to apply the appropriate analysis methodologies to common bridge engineering problems as well as unfamiliar problems
-The ability to understand the limitations of bridge analysis methods
-A knowledge and understanding to work with information that may be uncertain or incomplete
-A Knowledge and understanding of sustainable development related to bridges
-The awareness of the commercial, social and environmental impacts associated with bridges
-An awareness and ability to make general evaluations of risk associated with the design and construction of bridge structures including health and safety, environmental and commercial risk
-A critical awareness of new developments in the field of bridge engineering

Intellectual / cognitive skills
-The ability to tackle problems familiar or otherwise which have uncertain or incomplete data (A,B)
-The ability to generate innovative bridge designs (B)
-The ability to use theory or experimental research to improve design and/or analysis
-The ability to apply fundamental knowledge to investigate new and emerging technologies
-Synthesis and critical appraisal of the thoughts of others

Professional practical skills
-The awareness of professional and ethical conduct
-A Knowledge and understanding of bridge engineering in a commercial/business context
-Ability to use computer software to assist towards bridge analysis
-Ability to produce a high quality report
-Ability of carry out technical oral presentations

Key / transferable skills
-Communicate engineering design, concepts, analysis and data in a clear and effective manner
-Collect and analyse research data
-Time and resource management planning

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This fully accredited MSc programme helps graduate engineers to acquire advanced capabilities and in-depth knowledge across a range of civil-engineering disciplines, including bridge engineering, construction management, and geotechnical, structural and water engineering. Read more
This fully accredited MSc programme helps graduate engineers to acquire advanced capabilities and in-depth knowledge across a range of civil-engineering disciplines, including bridge engineering, construction management, and geotechnical, structural and water engineering.

This well-established programme is delivered by experienced University staff, together with practising engineers from consultancies and local authorities.

PROGRAMME OVERVIEW

You can access six study streams on this Masters programme:
-Bridge Engineering
-Construction Management
-Geotechnical Engineering
-Structural Engineering
-Water Engineering and Environmental Engineering
-Infrastructure Engineering and Management

As well as supporting the career development of Civil Engineering graduates, this programme provides the necessary further learning for engineers working in the construction industry who hold related first degrees such as engineering geology or construction management.

It is also designed to update the technical skills of practising engineers engaged in the planning, design, construction and operation of civil-engineering works.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time / distance learning for between two to five academic years. It consists of eight taught modules and a dissertation. This 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 following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Structural Engineering Group Modules
-Steel Building Design
-Space Structures
-Structural Mechanics and Finite Elements
-Subsea Engineering
-Concrete Building Design
-Structural Safety and Reliability
-Earthquake Engineering
-Design of Masonry Structures

Bridge Engineering Group Modules
-Bridge Deck Loading and Analysis
-Prestressed Concrete Bridge Design
-Durability of Bridges and Structures
-Bridge Management
-Steel and Composite Bridge Design
-Long-Span Bridges

Geotechnical Engineering Group Modules
-Advanced Soil Mechanics
-Energy Geotechnics
-Geotechnical Structures
-Soil-Structure Interaction
-Deep Foundations and Earth Retaining Structures

Construction Management Group Modules
-Construction Management and Law
-Construction Organisation
-Project and Risk Management

Infrastructure Engineering Group Modules
-Infrastructure Investment and Financing
-Infrastructure Interdependencies and Resilience
-Infrastructure Asset Management
-Sustainability and Infrastructure

Water and Environmental Engineering Group Modules
-Environmental Health
-Water Treatment Optional
-Wastewater Treatment
-Applied Chemistry and Microbiology
-Pollution Control
-Groundwater Control
-Regulation and Management
-Water Resources

Dissertation
-Dissertation Project

EDUCATIONAL AIMS OF THE PROGRAMME

The Civil Engineering programme aims to provide graduate engineers with:
-Advanced capabilities and in-depth knowledge in a range of specialised aspects of civil engineering
-It is also designed to update the technical skills of practising engineers engaged in the planning, design, construction and operation of civil engineering works and to contribute to a personal professional development programme
-A working knowledge of some of the UK and European standards and codes of practice associated with the design, analysis and construction of civil engineering structures and the ability to interpret and apply these to both familiar and unfamiliar problems
-The necessary further learning towards fulfilling the educational base for the professional qualification of Chartered Engineer in both a technical or non-technical capacity dependent upon module selection

PROGRAMME LEARNING OUTCOMES

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

Knowledge and understanding
-The mathematical principles necessary to underpin their education in civil engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of multi-disciplinary open ended engineering problems
-The properties, behaviour and use of relevant materials
-The management techniques which may be used to achieve civil engineering objectives within that context
-Some of the roles of management techniques and codes of practice in design
-The principles and implementation of some advanced design and management techniques specific to civil engineering
-Mathematical and computer models relevant to civil engineering, and an appreciation of their limitations
-The role of the professional engineer in society, including health, safety, environmental, sustainability, ethical issues and risk assessment within civil engineering
-The wider multidisciplinary engineering context and its underlying principles
-Developing technologies related to civil engineering and the ability to develop an ability to synthesize and critically appraise some of them
-The framework of relevant requirements governing engineering activities, including personnel, health, safety, and risk issues (an awareness of)
-The advanced design processes and methodologies and the ability to adapt them in open ended situations.

Intellectual / cognitive skills
-Analyse and solve problems
-Think strategically
-Synthesis of complex sets of information
-Understand the changing nature of knowledge and practice in the management of culturally diverse construction environments
-Select and transfer knowledge and methods from other sectors to construction-based organisation
-Produce sound designs to meet specified requirements such as Eurocodes, deploying commercial software packages as appropriate
-Dynthesis and critical appraisal of the thoughts of others

Professional practical skills
-Awareness of professional and ethical conduct
-Extract data pertinent to an unfamiliar problem, and apply its solution using computer based engineering tools where appropriate
-Evaluate and integrate information and processes in project work
-Present information orally to others
-Show a capability to act decisively in a coordinated way using theory, better practice and harness this to experience
-Use concepts and theories to make engineering judgments in the absence of complete data
-Observe, record and interpret data using appropriate statistical methods and to present results in appropriate forms for the civil engineering industry

Key / transferable skills
-Communicate engineering design, concepts, analysis and data in a clear and effective manner
-Collect and analyse research data
-Time and resource management planning

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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This well-established and fully accredited MSc programme will develop the knowledge and skills acquired in your undergraduate programme. Read more
This well-established and fully accredited MSc programme will develop the knowledge and skills acquired in your undergraduate programme. It builds the advanced capabilities in analysis and codified design in specialised aspects of structural engineering that are required by industry.

PROGRAMME OVERVIEW

Our Structural Engineering postgraduate programme is delivered by the Faculty’s own staff, together with practising engineers from consultancies and local authorities.

For practising engineers engaged in the planning, design and construction of structural engineering works, this programme provides an opportunity to update their knowledge of current design practice and to become familiar with developments in codes and methods of analysis.

You will be able to choose from a rich and varied selection of specialist structural engineering subjects. The programme is offered in the standard full-time mode, in addition to part-time and distance learning options.

Graduates from the programme are highly employable and may progress to relevant specialist PhD or EngD research programmes in the field.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time or distance learning over two to five academic years. It consists of eight taught modules and a dissertation project.

This 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 following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Structural Engineering Group Modules
-Steel Building Design
-Space Structures
-Structural Mechanics and Finite Elements
-Subsea Engineering
-Concrete Building Design
-Structural Safety and Reliability
-Earthquake Engineering
-Design of Masonry Structures

Bridge Engineering Group Modules
-Bridge Deck Loading and Analysis
-Prestressed Concrete Bridge Design
-Durability of Bridges and Structures
-Bridge Management
-Steel and Composite Bridge Design
-Long-Span Bridges

Geotechnical Engineering Group Modules
-Advanced Soil Mechanics
-Energy Geotechnics
-Geotechnical Structures
-Soil-Structure Interaction
-Deep Foundations and Earth Retaining Structures

Construction Management Group Modules
-Construction Management and Law
-Construction Organisation
-Project and Risk Management

Infrastructure Engineering Group Modules
-Infrastructure Investment and Financing
-Infrastructure Interdependencies and Resilience
-Infrastructure Asset Management
-Sustainability and Infrastructure

Water and Environmental Engineering Group Modules
-Environmental Health
-Water Treatment
-Wastewater Treatment
-Applied Chemistry and Microbiology
-Pollution Control
-Groundwater Control
-Regulation and Management
-Water Resources

Dissertation
-Dissertation Project

Apart from the usual full-time mode, there are also part-time options. The majority of Bridge, Geotechnical and Structural Engineering modules can be studied by distance learning through the use of an interactive web-based e-learning platform (SurreyLearn). This programme can be studied via distance learning, which allows a high level of flexibility and enables you to study alongside other commitments you may have.

EDUCATIONAL AIMS OF THE PROGRAMME

The programme aims to provide graduates with:
-A comprehensive understanding of engineering mechanics for structural analysis
-The ability to select and apply the most appropriate analysis methodology for problems in structural engineering including advanced and new methods
-The ability to design structures in a variety of construction materials
-A working knowledge of the key UK and European standards and codes of practice associated with the design, analysis and construction of civil engineering structures and the ability to interpret and apply these to both familiar and unfamiliar problems
-The necessary technical further learning towards fulfilling the educational base for the professional qualification of Chartered Engineer

PROGRAMME LEARNING OUTCOMES

Knowledge and understanding
-A knowledge and understanding of the key UK and European standards and codes of practice relating to structural engineering
-The ability to interpret and apply the appropriate UK and European standards and codes of practice to structural design for both familiar and unfamiliar situations
-A knowledge and understanding of the construction of different types of structures using different types of materials (e.g. concrete and steel)
-A knowledge and understanding of the common and less common materials used in structural engineering
-A comprehensive understanding of the principles of engineering mechanics underpinning structural engineering
-The ability to critically evaluate structural engineering concepts
-The ability to apply the appropriate analysis methodologies to common structural engineering problems as well as unfamiliar problems
-The ability to understand the limitations of structural analysis methods
-A knowledge and understanding to work with information that may be uncertain or incomplete
-A Knowledge and understanding of sustainable development related to structures
-The awareness of the commercial, social and environmental impacts associated with structures
-An awareness and ability to make general evaluations of risk associated with the design and construction of structures including health and safety, environmental and commercial risk
-A critical awareness of new developments in the field of structural engineering

Intellectual / cognitive skills
-The ability to tackle problems familiar or otherwise which have uncertain or incomplete data
-The ability to generate innovative structural designs
-The ability to use theory or experimental research to improve design and/or analysis
-The ability to apply fundamental knowledge to investigate new and emerging technologies
-Produce sound designs to meet specified requirements such as Eurocodes, deploying commercial software packages as appropriate
-Synthesis and critical appraisal of the thoughts of others

Professional practical skills
-The awareness of professional and ethical conduct
-A Knowledge and understanding of structural engineering in a commercial/business context
-Ability to use computer software to assist towards structural analysis
-Ability to produce a high quality report
-Ability of carry out technical oral presentations

Key / transferable skills
-Communicate engineering design, concepts, analysis and data in a clear and effective manner
-Collect and analyse research data
-Time and resource management planning

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

Read less
The course is aimed at practising drilling engineers. It focuses on the concept of effective well construction, and aims to develop high levels of professional skill in the key areas of well design, drilling and operations management. Read more
The course is aimed at practising drilling engineers. It focuses on the concept of effective well construction, and aims to develop high levels of professional skill in the key areas of well design, drilling and operations management. The course focuses on the concept of effective well construction, and aims to develop high levels of professional skill in the key areas of well design, drilling and operations management.

Typical students include those working in oil and gas companies, energy companies, national oil companies, engineering firms and project service companies. Graduates of MSc Drilling and Well Engineering are now employed in every oil producing area of the world and work for many of the oil majors and drilling contractors.

Visit the website https://www.rgu.ac.uk/engineering/study-options/postgraduate-taught-full-time/drilling-and-well-engineering

Course detail

The course focuses on the concept of effective well construction, and aims to develop high levels of professional skill in the key areas of well design, drilling and operations management.

You can study for this course full-time at our campus in Aberdeen or online via the university's virtual learning environment CampusMoodle.

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

Stage 1

•Subsurface
•Wells
•Facilities
•Business Essentials

Exit Award: PgCert Oil and Gas Engineering

Stage 2

•Drilling Technology
•Drilling Operations Management
•Completions and Subsea Systems
•Advanced Well Engineering

Exit Award: PgDip Drilling and Well Engineering

Stage 3

•Individual Project Report

Award: MSc Drilling and Well 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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