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Masters Degrees (Msc Subsea Engineering)

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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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You can access six study streams on this Masters programme. Bridge Engineering. Construction Management. Geotechnical Engineering. Read more

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.

Example module listing

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

Bridge Engineering Group Modules

Geotechnical Engineering Group Modules

Construction Management Group Modules

Infrastructure Engineering Group Modules

Water and Environmental Engineering Group Modules

Dissertation

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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The Advanced Geotechnical Engineering MSc will nurture and develop your understanding of the principles and theories behind ground engineering. Read more

The Advanced Geotechnical Engineering MSc will nurture and develop your understanding of the principles and theories behind ground engineering.

Topics include deep foundations in urban areas, tunnelling, foundations for energy infrastructure, deep water energy resources exploration and field monitoring.

During your studies you will have the opportunity to apply the knowledge and practical understanding of scientific methodology you have acquired on a research project under the guidance and advice of an experienced supervisor.

This will help you develop the skills to acquire, analyse, and critically evaluate data, and then draw valid, defendable conclusions that can withstand professional scrutiny.

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 one academic year (full-time) and between two and five academic years (part-time or distance learning). It consists of eight taught modules and a dissertation.

On successful completion of this MSc programme students will be deemed to have completed the further learning necessary to combine with a suitable BEng (Hons) degree fulfilling the academic base for the professional qualification of Chartered Engineer.

Example module listing

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.

Geotechnical Engineering Group Modules

Selected Structural Engineering Group Modules

Selected Construction Management Group Modules

Selected Infrastructure Engineering Group Modules

Selected Water and Environmental Engineering Group Modules

Students must choose eight modules from those listed above. For the main and subsidiary awards there are restrictions on the choice of modules within each module group. These are outlined in the table above.

Educational aims of the programme

The programme aims to provide graduates with:

  • A comprehensive understanding of some of the challenges faced during the analysis, design and construction of foundation and geotechnical structures
  • The ability to select and apply most appropriate analysis methodology for problems in ground engineering including advanced and new methods
  • The ability to design foundations in a variety of ground conditions 
  • A working knowledge of the key UK, European and some International standards and codes of practice associated with the analysis and design of foundations 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

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.

Learn more about opportunities that might be available for this particular programme by using our student exchanges search tool.

Academic support, facilities and equipment

Modules are taught by academic members in the geotechnical area, and some lectures for the Advanced Geotechnical Engineering MSc will be delivered by visiting academics and practicing engineers from industry.

You will also be allocated a personal tutor to guide you during your time with us at the University. You can expect a varied, stimulating and rewarding time here and will receive all the support you need to progress your learning. 

In addition to the University Library and Learning Centre’s extensive resources, our excellent testing facilities can support experimentally based MSc dissertation projects. 

Prizes

VJ Tech Prize for Best MSc Student in Advanced Geotechnical Engineering

A prize of £1,000, sponsored by VJ Tech, one of the world’s top geotechnical engineering manufacturers specialising in advanced soil testing equipment for labs.

The prize will be awarded to the best performing student(s) on the MSc Advanced Geotechnical Engineering based on module results and overall performance during the programme.

The £1,000 may be awarded to an individual student or split between two students displaying the best performance in their MSc programme.

Keller Prize for Best MSc Project in Advanced Geotechnical Engineering

A prize of £500 sponsored by Keller Group plc, the world’s largest independent ground engineering contractor.

The prize will be awarded to the student(s) with the best MSc Dissertation completed as part of the MSc Advanced Geotechnical Engineering, as defined by the course leader according to the module results and potential impact of the output of the individual project.

The £500 may be awarded to an individual student or split between a number of students displaying the best performance in their MSc Dissertations.



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

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.

Example module listing

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

Structural Engineering Group Modules

Geotechnical Engineering Group Modules

Construction Management Group Modules

Infrastructure Engineering and Management Group Modules

Water and Environmental Engineering Group Modules

Dissertation

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

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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The MSc in Geotechnical Engineering is part of the Division of Civil Engineering's extensive programme of postgraduate studies and research. Read more
The MSc in Geotechnical Engineering is part of the Division of Civil Engineering's extensive programme of postgraduate studies and research. The course builds on the Division's renowned research expertise and industrial experience in current aspects of geotechnical engineering.

Why study Geotechnical Engineering at Dundee?

Key reasons include:
Better preparation for successful careers in industry, commerce or academia
Development of skills, knowledge and understanding in a specialist field
Participation in the research activities of a world-class department

A wide range of research projects are available in any of the following areas: earthquake engineering (foundations during earthquakes, liquefaction, faulting), offshore engineering (foundations, anchors, pipelines and offshore processes), foundation engineering and ground improvement. Some of these projects will be linked to industry

Development of transferable skills in research methods, communication and management of large and small scale projects

Part-time students have the option of relating their research project directly to ongoing work within their employment

Professional Accreditation: ICE/IStructE

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. Visit http://www.jbm.org.uk for further information.

What's great about Geotechnical Engineering at Dundee?

Civil Engineering at Dundee is ranked top in Scotland for research. You will have the opportunity to engage with leading edge research at Dundee, meaning we attract students of the highest calibre and our graduates are highly sought after by employers worldwide. Students studying on our masters programmes benefit from our renowned research expertise and industry experience.

The Geotechnical Engineering research sub-group was established in 1997 and it has grown significantly since that time. In addition to its undergraduate and postgraduate teaching and research activities, the group offers services to industry across a broad range of geotechnical engineering. The group has hosted a number of major conferences and symposia in Dundee.

Who should study this course?

It is designed both for people pursuing a higher degree soon or immediately after obtaining their first degree, and for those with considerable work experience.

"I love how specialised [this course] is, as very few universities offer such speciality in Earthquake and Offshore Engineering. The course taught me how to solve real-life challenging problems, not to mention the strong industry linkage with my future employer - Subsea 7."
Vithiea Pang, MSc student

The start date is September each year, and lasts for 12 months.

How you will be taught

Modules start at the beginning of the academic session in September and are taught by lectures and tutorials.

What you will study

There are three main elements to the course programme:

Core Modules
These provide skills generic to engineering and research. The two modules are:

Research Methods and Diploma Project
Health, Safety & Environmental Engineering
Specialist Modules
The specialist modules provide in-depth and advanced knowledge, and build upon our expertise. These cover the following topics:

Offshore Geotechnical Engineering
Advanced Soil Mechanics and Geo-Environmental Engineering
Soil Dynamics and Earthquake Engineering
Advanced Structural Analysis
Research Project
The research project gives you the opportunity to benefit from, and contribute to our research. At the end of the project students submit a dissertation based on their research. Students select their projects from a list offered by the academic staff or may suggest their own topic. Many of these projects are collaborative with industry, particularly those in offshore engineering (for Oil and Gas, Marine Renewables and Aquaculture)

How you will be assessed

The course is assessed by coursework and examination.

Students taking the Postgraduate Diploma carry out a shorter research project and complete an extended report.

Careers

There is a continuing demand for civil engineers particularly in the energy and water sectors and the skills of the civil engineer are highly portable in the multi-disciplinary engineering sectors. The latest Institution of Civil Engineers Salary Survey for the UK (2010) indicates that the average total income of its senior members is nearly £100k, while that of recent graduates is £27.5k.

We are proud of our achievements in graduate employment. The blend of science, technology and management education and training gained in a unique learning environment that is both challenging and friendly, makes our graduates attractive to employers in civil engineering and a wider range of sectors.

Graduates from Dundee have gone on to achieve high level positions in most sectors of the profession. These include consulting engineers and contractors, the offshore industry and research organisations.

Funded places

Due to an initiative from the Scottish Funding Council (SFC) designed to support key sectors in the Scottish economy, there are 7 fully-funded places available to eligible students starting this course in 2013/14. This covers all tuition fees associated with the MSc programme and can be held by students classified as Scottish or EU for fee purposes only. Please indicate your interest in being considered for a funded place when you apply through UKPASS.

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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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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 course covers the planning, design, analysis and management frameworks of infrastructure systems. In particular, you will develop expertise in the. Read more

This course covers the planning, design, analysis and management frameworks of infrastructure systems. In particular, you will develop expertise in the:

  • Technical aspects of infrastructure engineering within a social, economic, environmental and political context
  • Factors that affect and drive infrastructure planning and funding
  • Interdependent nature of infrastructure across different sectors

You will qualify with a sound understanding of the whole life-cycle of infrastructure assets, the environmental impact of infrastructure projects, and formal asset-management techniques enabling you to maximise the benefits of infrastructure assets in the future.

The lectures given by our academic staff are complemented by visiting speakers from different infrastructure companies such as Network Rail, Thames Water, Environment Agency, Transport for London, ARUP, KPMG, etc., covering different aspect of infrastructure engineering and management. During the academic year, infrastructure specialists carry out Keynote Lectures focusing on important infrastructure projects and approaches. Past Keynote Speakers include Sir John Armitt, Sir Terry Morgan, Sir Michael Pitt, Sir David Higgins, Keith Clarke, James Stewart, Andrew Wolstenholme, Michele Dix, Humphrey Cadoux-Hudson. A number of field visits are also organised to provide an overview of real-life infrastructure operation and management. Past field visits have taken place to both the National Grid and Network Rail Control Centers.

Graduates from the programme are highly employable but have the potential to 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 for between two to five academic years. It consists of eight taught modules and a dissertation.

Example module listing

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.

Infrastructure Engineering and Management Group Modules

Structural Engineering Group Modules

Bridge Engineering Group Modules

Geotechnical Engineering Group Modules

Construction Management Group Modules

Water and Environmental Engineering Group Modules

Wind Energy Group Modules

Dissertation

Modes of study 

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).

Distance learning

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. Get full information about our distance learning programme (PDF).

Academic support, facilities and equipment

Modules related to the different groups are taught by a total of 20 full or part-time members of academic staff, as well as a number of visiting lecturers from the industry and government.

In addition to the University Library and Learning Centre’s extensive resources, our excellent testing facilities can support experimentally based MSc dissertation projects. 

Educational aims of the programme

The programme aims to provide graduates with:

  • The state-of-the-art of infrastructure engineering and management that is required for the realisation of the complex delivery of new and management and of existing infrastructure.
  • A holistic overview of infrastructure as a system of systems, viewed within the social, economic and environmental context, and the drivers for sustainable infrastructure development and change.
  • A knowledge of the fundamental multi-disciplinary frameworks that can be adopted for the planning, design, management and operation of interconnected infrastructure systems.
  • A specialisation in an infrastructure area of their choice (i.e. bridge, building, geotechnical, water, wind) providing them with detailed background for the analysis and solution of specific problems associated with individual infrastructure components.

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

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.

Example module listing

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

Bridge Engineering Group Modules

Geotechnical Engineering Group Modules

Construction Management Group Modules

Infrastructure Engineering Group Modules

Water and Environmental Engineering Group Modules

Dissertation

Modes of study

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).

Distance learning

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. Get further information about the details of our distance learning programme.

Academic support, facilities and equipment

As part of your learning experience, you will have at your disposal a wide range of relevant software, including ANSYS, ABAQUS, DIANA, SAP 2000, Integer SuperSTRESS, LUSAS, CRISP, MATLAB, PertMaster DRACULA and VISSIM.

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.

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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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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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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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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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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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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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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