Offshore Engineering, _MSc

Programme Fees

Semester 1

Compulsory Courses

PD5006 Getting Started at the University of Aberdeen (0 credit points)
EG506V Introduction to Subsea Systems and Offshore Structures (0 credits)
EG50?? Subsea Production and Control (15 credit points)
EG503M Offshore Structural Integrity (15 credit points)
EG50T7 Subsea construction, Inspection and Maintenance (15 credit points)

Getting Started at the University of Aberdeen (PD5006)

This course, which is prescribed for all taught postgraduate students, is studied entirely online, takes approximately 5-6 hours to complete and can be taken in one sitting, or spread across a number of weeks.

Topics include orientation overview, equality and diversity, health, safety and cyber security and how to make the most of your time at university in relation to careers and employability.

Successful completion of this course will be recorded on your Enhanced Transcript as ‘Achieved’.

Detailed course information

Introduction to Subsea Systems and Offshore Structures (EG506V)

This course will give you an overview of subsea oil and gas production systems and offshore renewables, and an appreciation of the infrastructure and facilities that need to be removed when the time arrives for decommissioning.

You’ll be introduced to various aspects of offshore structures and subsea systems, including wind turbines, subsea oil and gas hardware and pipelines, and their associated infrastructure. You’ll also learn how these systems are maintained and monitored.

Detailed course information

Offshore Structural Integrity (EG503M)

15 Credit Points

This course provides a detailed understanding of design considerations for components to be used in offshore environments, especially in terms of materials selection, qualification, standards and testing. Reasons for failure and the application of failure analysis in design will be studied. The course will be focussed on offshore steel structures relating to traditional energy applications; however, the fundamental knowledge gained can also be applied to structural integrity assessments in other marine applications including ships, submarines and offshore renewables.This course provides a detailed understanding of design considerations for components to be used in offshore environments, especially in terms of materials selection, qualification, standards and testing. Reasons for failure and the application of failure analysis in design will be studied. The course will be focussed on offshore steel structures relating to traditional energy applications; however, the fundamental knowledge gained can also be applied to structural integrity assessments in other marine applications including ships, submarines and offshore renewables.

Detailed course information

Subsea Construction, Inspection and Maintenance (EG50T7)

15 Credit Points

Course provides a detailed understanding of the techniques used for installation, inspection, and maintenance of subsea systems, including seabed hardware, pipelines and risers, and the implications of such techniques for the design of subsea components and systems.

The module will provide detailed knowledge on various techniques and trends in the installation, inspection and maintenance of subsea equipment, especially pipeline and riser systems and principal components. It will provide engineers with a sufficiently broad awareness of techniques used throughout offshore operations to give an appreciation and understanding of system limitations and appropriate applications for different subsea environments

Detailed course information

Optional Courses

Plus one from the following:

Electrical Systems for Renewable Energy (EG501H)

15 Credit Points

The course aims to develop a broad understanding about the basic concepts in electrical engineering and power systems with emphasis on renewable power generation techniques.

Detailed course information

Engineering Risk and Reliability Analysis (EG50P6)

15 Credit Points

The world is full of uncertainties and there is a level of risk in every human activity, including engineering. Many industries require an engineer to manage significant risks and design for high reliability, such as oil and gas, subsea, nuclear, aviation and large civil projects (e.g. bridges and dams). To meet these engineering challenges and make rational decisions in the presence of uncertainty, this course will introduce students to methods and tools used by engineers to analysis risk and reliability.

Detailed course information

Semester 2

Compulsory Courses

EG552U Marine and Wind Energy (15 credit points)
EG55F2 Pipelines and Soil Mechanics (15 credit points)

Marine and Wind Energy (EG552U)

15 Credit Points

To provide an understanding of the physical principles, technologies and systems associated with renewable energy generation from wind and marine sources. To provide an understanding of the position of these sources of energy in the current and future global energy requirements and the technical challenges in meeting the future energy demand

Detailed course information

Pipelines and Soil Mechanics (EG55F2)

15 Credit Points

Offshore production of oil and gas requires transportation of the oil and gas from where it is produced to shipping vessels, storage tanks or refinery. The transportation is done using pipelines which are installed on the seabed. This course examines the engineering and scientific concepts that underpin the selection of the material and size of such pipelines as well as safe installation and operation. The environmental impact and the role played by the seabed profile are also discussed. Contribution from industry-based practicing engineers is used to inform students of current practices and technologies in subsea pipelines.

Detailed course information

Optional Courses

Select two from the following:

Renewable Energy Integration to Grid (EG551K)

15 Credit Points

The course aims to develop a broad understanding about the challenges and requirements of integrating renewable generators (RE) to grid, how these requirements can be met using converters, and high voltage direct current (HVDC) as a method of connecting RE to AC grids.

Detailed course information

Flow Assurance (EG55F8)

15 Credit Points

There are many challenges during transport of oil and gas through pipelines. These challenges require a real grasp of the fundamentals in fluid mechanics, heat transfer, phase changes, deposition and/or obstruction, erosion and new technologies to ensure a reliable and cost effective provision of oil and gas. Deep water production, heavy oils, high water production, severe slugging, hydrates, sour gases, asphaltenes and waxes make this task even harder. This course will provide a detailed explanation of the topics, a well-balanced set of tutorials with real examples, invited lectures from experienced engineers and flow assurance specific software training.

Detailed course information

Riser Systems and Hydrodynamics (EG55F9)

15 Credit Points

The course provides students with detailed knowledge of risers systems design considerations. Typical riser systems including flexible, steel catenary, hybrid and top tensioned riser systems are covered. The ocean environmental hydrodynamics and interactions between vessel, mooring and riser systems are also considered.

Detailed course information

Semester 3

Compulsory Courses

MSc Individual Project (EG59F1)

60 Credit Points

The MSc Individual Project is an independent piece of research based on a topic related to a student’s degree programme. Students are encouraged to focus on a problem confronting industry or a related area. The individual project provides students with an opportunity to demonstrate how the in-depth skills and knowledge they have gained during the taught courses can be used to provide solutions to practical problems. The individual project should contain a degree of original research.

Detailed course information

Programme Fees

Stage 1

Compulsory Courses

PD5506 Getting Started at the University of Aberdeen (0 credit points)
EG556V Introduction to Subsea Systems and Offshore Structures (0 credits)
EG552U Marine and Wind Energy (15 credit points)
EG55F2 Pipelines and Soil Mechanics (15 credit points)

Getting Started at the University of Aberdeen (PD5506)

This course, which is prescribed for all taught postgraduate students, is studied entirely online, takes approximately 5-6 hours to complete and can be taken in one sitting, or spread across a number of weeks.

Topics include orientation overview, equality and diversity, health, safety and cyber security and how to make the most of your time at university in relation to careers and employability.

Successful completion of this course will be recorded on your Enhanced Transcript as ‘Achieved’.

Detailed course information

Introduction to Subsea Systems and Offshore Structures (EG556V)

This course will give you an overview of subsea oil and gas production systems and offshore renewables, and an appreciation of the infrastructure and facilities that need to be removed when the time arrives for decommissioning.

You’ll be introduced to various aspects of offshore structures and subsea systems, including wind turbines, subsea oil and gas hardware and pipelines, and their associated infrastructure. You’ll also learn how these systems are maintained and monitored.

Detailed course information

Marine and Wind Energy (EG552U)

15 Credit Points

To provide an understanding of the physical principles, technologies and systems associated with renewable energy generation from wind and marine sources. To provide an understanding of the position of these sources of energy in the current and future global energy requirements and the technical challenges in meeting the future energy demand

Detailed course information

Pipelines and Soil Mechanics (EG55F2)

15 Credit Points

Offshore production of oil and gas requires transportation of the oil and gas from where it is produced to shipping vessels, storage tanks or refinery. The transportation is done using pipelines which are installed on the seabed. This course examines the engineering and scientific concepts that underpin the selection of the material and size of such pipelines as well as safe installation and operation. The environmental impact and the role played by the seabed profile are also discussed. Contribution from industry-based practicing engineers is used to inform students of current practices and technologies in subsea pipelines.

Detailed course information

Optional Courses

Plus two from the following.

Renewable Energy Integration to Grid (EG551K)

15 Credit Points

The course aims to develop a broad understanding about the challenges and requirements of integrating renewable generators (RE) to grid, how these requirements can be met using converters, and high voltage direct current (HVDC) as a method of connecting RE to AC grids.

Detailed course information

Flow Assurance (EG55F8)

15 Credit Points

There are many challenges during transport of oil and gas through pipelines. These challenges require a real grasp of the fundamentals in fluid mechanics, heat transfer, phase changes, deposition and/or obstruction, erosion and new technologies to ensure a reliable and cost effective provision of oil and gas. Deep water production, heavy oils, high water production, severe slugging, hydrates, sour gases, asphaltenes and waxes make this task even harder. This course will provide a detailed explanation of the topics, a well-balanced set of tutorials with real examples, invited lectures from experienced engineers and flow assurance specific software training.

Detailed course information

Riser Systems and Hydrodynamics (EG55F9)

15 Credit Points

The course provides students with detailed knowledge of risers systems design considerations. Typical riser systems including flexible, steel catenary, hybrid and top tensioned riser systems are covered. The ocean environmental hydrodynamics and interactions between vessel, mooring and riser systems are also considered.

Detailed course information

Stage 2

Compulsory Courses

MSc Individual Project (EG59M2)

60 Credit Points

The MSc Individual Project is an independent piece of research based on a topic related to a student’s degree programme. Students are encouraged to focus on a problem confronting industry or a related area. The individual project provides students with an opportunity to demonstrate how the in-depth skills and knowledge they have gained during the taught courses can be used to provide solutions to practical problems. The individual project should contain a degree of original research.

Detailed course information

Stage 3

Compulsory Courses

EG507C Subsea Production and Control (15 credit points)
EG503M Offshore Structural Integrity (15 credit points)
EG50T7 Subsea construction, Inspection and Maintenance (15 credit points)

Subsea Production and Control (EG507C)

15 Credit Points

The course covers design, analysis and operation of subsea production and control systems for various field development options and efficient management of subsea facilities. It introduces the technical and engineering challenges of oil and gas production in subsea fields worldwide, including system reliability, environmental impact and technological advancements. Students will learn about subsea infrastructure and control mechanisms essential for reliable subsea field performance.

Detailed course information

Offshore Structural Integrity (EG503M)

15 Credit Points

This course provides a detailed understanding of design considerations for components to be used in offshore environments, especially in terms of materials selection, qualification, standards and testing. Reasons for failure and the application of failure analysis in design will be studied. The course will be focussed on offshore steel structures relating to traditional energy applications; however, the fundamental knowledge gained can also be applied to structural integrity assessments in other marine applications including ships, submarines and offshore renewables.This course provides a detailed understanding of design considerations for components to be used in offshore environments, especially in terms of materials selection, qualification, standards and testing. Reasons for failure and the application of failure analysis in design will be studied. The course will be focussed on offshore steel structures relating to traditional energy applications; however, the fundamental knowledge gained can also be applied to structural integrity assessments in other marine applications including ships, submarines and offshore renewables.

Detailed course information

Subsea Construction, Inspection and Maintenance (EG50T7)

15 Credit Points

Course provides a detailed understanding of the techniques used for installation, inspection, and maintenance of subsea systems, including seabed hardware, pipelines and risers, and the implications of such techniques for the design of subsea components and systems.

The module will provide detailed knowledge on various techniques and trends in the installation, inspection and maintenance of subsea equipment, especially pipeline and riser systems and principal components. It will provide engineers with a sufficiently broad awareness of techniques used throughout offshore operations to give an appreciation and understanding of system limitations and appropriate applications for different subsea environments

Detailed course information

Optional Courses

Plus one from the following.

Electrical Systems for Renewable Energy (EG501H)

15 Credit Points

The course aims to develop a broad understanding about the basic concepts in electrical engineering and power systems with emphasis on renewable power generation techniques.

Detailed course information

Engineering Risk and Reliability Analysis (EG50P6)

15 Credit Points

The world is full of uncertainties and there is a level of risk in every human activity, including engineering. Many industries require an engineer to manage significant risks and design for high reliability, such as oil and gas, subsea, nuclear, aviation and large civil projects (e.g. bridges and dams). To meet these engineering challenges and make rational decisions in the presence of uncertainty, this course will introduce students to methods and tools used by engineers to analysis risk and reliability.

Detailed course information