• Goldsmiths, University of London Featured Masters Courses
  • University of Glasgow Featured Masters Courses
  • Cardiff University Featured Masters Courses
  • St Mary’s University, Twickenham Featured Masters Courses
  • Xi’an Jiaotong-Liverpool University Featured Masters Courses
  • New College of the Humanities Featured Masters Courses
  • Coventry University Featured Masters Courses
  • University of Derby Online Learning Featured Masters Courses
King’s College London Featured Masters Courses
Cranfield University Featured Masters Courses
Leeds Beckett University Featured Masters Courses
University of Worcester Featured Masters Courses
Loughborough University Featured Masters Courses
"marine" AND "renewable"×
0 miles

Masters Degrees (Marine Renewable)

  • "marine" AND "renewable" ×
  • clear all
Showing 1 to 15 of 55
Order by 
Renewable energy is a cornerstone of the green economy and marine wind, wave and tidal energy are key elements of the UK, European and global renewable energy roadmaps. Read more
Renewable energy is a cornerstone of the green economy and marine wind, wave and tidal energy are key elements of the UK, European and global renewable energy roadmaps. Begin your voyage to being a part of this vital transformation by studying on the UK’s first MSc Marine Renewable Energy programme. Building on our international reputation for marine research and teaching along with regional and national initiatives, this distinctive degree focuses on the growing marine renewable energy sector.

Key features

-Be at the forefront of the emerging field of marine renewable energy at a time when such expertise is increasingly sought after.
-Develop knowledge and confidence in the critical areas which will help you to be an integral part of the effort to develop and promote marine renewable energy.
-Benefit from our research team’s expertise – our staff achieved ratings of ‘world leading’ and ‘internationally excellent’ in the UK Government’s most recent Research Excellence Framework (REF 2014).
-Take advantage of Plymouth University’s active role in the Southwest Marine Energy Park and the Offshore Renewables Development Programme to stay abreast of the latest developments and make contacts with key players in the field.
-Gain experience in the use of world leading facilities such as the COAST Lab test tanks and the Falcon Spirit research vessel as part of your taught programme and your research.
-Learn in an environment which benefits from PRIMaRE investment in new staff expertise and facilities.
-Benefit from a programme fully-integrated with the £42 million wave hub project, the world's largest wave energy test site, off north Cornwall.
-Live and study in ‘Britain’s Ocean City’, with easy access to businesses and the natural environment involved in your area of study this is an ideal location to study marine renewables.
-Take the opportunity to study abroad in the research project phase and be supported by one Plymouth University supervisor and one supervisor overseas.

Course details

The taught modules in the first period are compulsory and are designed to provide you with a broad background on marine renewable as well as a solid basis for the option modules in period two. You’ll undertake three modules in period one that provide a background in marine renewable energy: introduction to marine renewable energy, economics, law and policy for marine renewable energy, research skills and research methods. In period two you can choose three options from a choice of five: assessment of coastal resources and impacts, marine planning, economics of the marine environment, mechanics of marine renewable energy structures, and wave and current modelling for marine renewable energy. During period three you’ll undertake a research project and dissertation. Due to the extensive staff research expertise there is a wide range of potential projects spanning marine science, engineering and socio-economics. You may also carry out projects with external organisations that have interests in marine renewable energy.

Core modules
-MAR513 Research Skills and Methods
-MAR526 Introduction to Marine Renewable Energy
-MAR527 Economics, Law and Policy for Marine Renewable Energy
-MAR524 MSc Dissertation

Optional modules
-MAR529 Marine Planning
-MATH523 Modelling Coastal Processes
-MAR528 Mechanics of MRE Structures
-MAR507 Economics of the Marine Environment
-MAR512 Assessment of Coastal Resources and Impacts

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

Read less
Take the opportunity to study on the UK’s first MSc Marine Renewable Energy programme. Read more
Take the opportunity to study on the UK’s first MSc Marine Renewable Energy programme. Building on our international reputation for marine research and teaching, the Peninsula Research Institute in Marine Renewable Energy (PRIMaRE) initiative and the South West Marine Energy Park, this distinctive degree focuses on the rapidly growing marine renewable energy sector. Gain expert knowledge in marine science, engineering, economics, law and policy, and undertake an independent research project.

Key features

-Be at the forefront of the emerging field of marine renewable energy at a time when such expertise is increasingly sought after.
-Learn in an environment which benefits from PRIMaRE investment in new staff expertise and facilities.
-Benefit from a programme fully-integrated with the £42 million wave hub project, the world's largest wave energy test site, off north Cornwall.
-Live and study in ‘Britain’s Ocean City’, with easy access to businesses and the natural environment involved in your area of study this is an ideal location to study marine renewables.
-Take the opportunity to study abroad in the research project phase and be supported by one Plymouth University supervisor and one supervisor overseas.
-Benefit from our research team’s expertise – our staff achieved ratings of ‘worldleading’ and ‘internationally excellent’ in the UK government’s most recent Research Assessment Exercise (RAE 2008).

Course details

The taught modules in the first period are compulsory and are designed to provide you with a broad background on marine renewable as well as a solid basis for the option modules in period two. You’ll undertake four modules in period one that provide a background in marine renewable energy: introduction to marine renewable energy, economics, law and policy for marine renewable energy, research skills and research methods. In periods two and three you’ll demonstrate your ability to implement a research project and produce an independent dissertation or paper of your own research. Many projects are carried out in association with active PRIMaRE research projects that staff are engaged in, including: resource characterisation, marine renewable energy systems, environmental and biodiversity impacts, coastal impacts, safe operations and navigational risk, underwater and surface electrical systems, socio-economic factors. Projects always have two supervisors.

Core modules
-MAR513 Research Skills and Methods
-MAR526 Introduction to Marine Renewable Energy
-MAR527 Economics, Law and Policy for Marine Renewable Energy
-MAR525 MRes Dissertation

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

Read less
Costs. Fees for 2016/17 TBC. 2015-2016 Irish/EU €8,500. Plus subsistence expenses (food etc.) associated with field trips, including the Tidal Energy module based at Queen’s Marine Laboratory, Portaferry, Northern Ireland. Read more
Costs: Fees for 2016/17 TBC. 2015-2016 Irish/EU €8,500. Plus subsistence expenses (food etc.) associated with field trips, including the Tidal Energy module based at Queen’s Marine Laboratory, Portaferry, Northern Ireland. Software necessary for assignments will be provided in UCC laboratories but may not be available for remote use. Optional sea safety training.

Overview

The programme covers a range of engineering and non-engineering topics relevant to the marine renewable energy industry, which is expected to grow rapidly in the coming decade. This will lead to a requirement for engineers with good knowledge of engineering fundamentals as well as detailed knowledge of how wind, wave and tidal devices will be designed, deployed and operated. A key aspect of the programme is the provision of specially-developed advanced modules in marine renewable energy which are not available in any other master’s course. This is an all-Ireland programme, hosted by UCC, delivered in partnership with the following academic institutions: Cork Institute of Technology, Dublin Institute of Technology, National University of Ireland, Maynooth, Queen’s University Belfast, University College Dublin and the University of Limerick.

Course Details

Students take 90 credits as follows:

In Part I students must take the five core modules (unless these or equivalent courses have already been taken), to a total of 25 credits. Students also choose electives from the list below, or may, with the approval of the Programme Director, choose other modules from the University’s Calendar.

NB: For the purposes of this programme it has been agreed that all non-UCC modules are treated as either 5 or 10 credits.

Part II consists of a Marine Renewable Energy Research Project (NE6020), to the value of 30 credits, completed over the summer months, either in industry or in an academic research laboratory in one of the partner institutions. Projects are offered subject to availability of suitable proposals from industry, and will be offered to students based on order of merit of results achieved in Part I. Students are also encouraged to make efforts to secure their own placement from suitable industrial hosts, outside of the list provided.

In every case, the final choice of modules is subject to the approval of the Programme Director of the MEngSc (Marine Renewable Energy). Students may take a maximum total of 15 credits only of undergraduate modules on this programme.

Part I
Core Modules
CE4020 Environmental Hydrodynamics (5 credits; UCC)
NE6003 Wind Energy (5 credits; UCC)
NE6005 Ocean Energy (5 credits; UCC)
NE6010 Advanced Topics in Marine Renewable Energy (5 credits; All institutions)
NE6906 Tidal Energy (5 credits; QUB; 1-week block)

Elective Modules

Students select modules to the value of 35 credits from the following list, (or from elsewhere in the UCC Calendar, subject to approval):

AC6301 Innovation Finance (5 credits) (UCC)
NE3003 Sustainable Energy (5 credits; UCC)
CE4013 Harbour & Coastal Engineering (5 credits; UCC)
CE6024 Finite Element Analysis (5 credits; UCC)
EE4001 Power Electronics, Drives & Energy Conversion (5 credits; UCC)
EE4010 Electrical Power Systems (5 credits; UCC)
EV4012 Environmental Impact Assessments (5 credits) (UCC)
GL6007 Practical Offshore Geological Exploration (5 credits; offered subject to availability of survey vessel time) (UCC)
IS6306 Technology Business Planning (5 credits) (UCC)
LW6104 Intellectual Property Law for High-Tech Entrepreneurs (5 credits) (UCC)
NE6007 Energy Systems Modelling (5 credits; UCC)
NE6901 Control Systems (5 credits; NUIM - EE612)
NE6902 Maintenance & Reliability (5 credits; CIT - MANU8003)

Part II
NE6020 Marine Renewable Energy Research Project (30 credits; All institutions; Summer)

Application Procedure

Application for this programme is on-line at http://www.pac.ie/ucc. Places on this programme are offered in rounds. The closing dates for each round can be found here (http://www.ucc.ie/en/study/postgrad/how/applicationclosingdates/). For full details of the application procedure click How to apply - http://www.ucc.ie/en/study/postgrad/how/

Course Practicalities

You will be studying a range of engineering and non-engineering topics relevant to a career in the marine renewable energy industry.

The programme will include modules in engineering topics such as Wind Energy, Wave Energy, Tidal Energy, Ocean-Structure Interactions; Ocean Energy Device Design; Control Engineering; Mechanical Engineering; Grid Integration and Storage; Marine Operations & Robotics.

The course content will be delivered via blended learning, with some modules presented in traditional lecture format, and some modules delivered remotely using e-learning technologies. All modules will have a significant element of continuous assessment throughout the year. The Tidal Energy module is delivered during a one-week field visit to the Portaferry research laboratory of Queen’s University Belfast.

A significant element of the programme is a R&D project carried out in conjunction with either an industry partner or an academic research group, with the final three months spent working on the project on placement with the partner.

Non-engineering topics available include Intellectual Property Law; Innovation Finance; Environmental Impact Assessment; Practical Offshore Geological Exploration.

Assessment

Taught modules (total >= 60 ECTS): will be assessed via a mixture of continuous assessment (assignments and mini design projects) and traditional examinations. This depends on the contributing institution, for example in NUIM, coursework and project-based learning is emphasised. The project module (30 ECTS) will be assessed by means of: oral presentation and seminar; logbook; written report, with input from the industrial placement supervisor.

Read less
To reduce greenhouse gas emissions and aid sustainable development, there is an urgent need to support our electricity generating capacity through the development of low carbon technologies, particularly those generated from renewable sources. Read more
To reduce greenhouse gas emissions and aid sustainable development, there is an urgent need to support our electricity generating capacity through the development of low carbon technologies, particularly those generated from renewable sources. The ocean represents a vast and largely untapped energy resource, that could be exploited as a form of low carbon electricity generation, and there is much European and global commercial and R&D activity in this energy sector. The UK is the world leader in the development of wave and tidal stream technologies, and if marine energy deploys globally, the UK is uniquely positioned to capture a substantial market share, with the potential to contribute as much as £4.3 bn to UK GDP up to 2050. The aim of this MSc programme is to equip students with the skills necessary to identify and quantify the potential of specific locations for marine renewable energy generation installations, with an emphasis on the resource (waves and tides), time series analysis, numerical modelling, and the challenges faced when placing arrays of devices in the marine environment.

This 12 month taught postgraduate course introduces students with a first degree in the physical, mathematical or other numerate sciences to the subject of Marine Renewable Energy. As well as providing an overview of marine renewable energy, the course enables students to research in detail those aspects of the subject in which they are particularly interested. The course places particular emphasis on assessing the wave & tidal energy resource, and geophysical nature of sites, providing students with the necessary skills for marine renewable energy resource and site characterisation from a theoretical, technical, and practical perspective.

Course Structure and Modules
The first two semesters of the course are taught, introducing the student to the physics of the ocean, and the ways in which we can make use of the ocean to generate electricity, whilst minimising environmental impacts. Modules cover both oceanographic theory and its application, as well as practical oceanography. The latter includes an introduction to state-of-the-art instrumentation and numerical modelling, as well as practical experience working on the University's state-of-the-art research vessel, the 35 metre RV Prince Madog. The course also includes a module on geophysical surveying, teaching the techniques used to survey sites suitable for deploying wave and tidal energy arrays. Student achievement in the course is evaluated by a combination of continuous assessment and module examinations.

During the second semester, the students begin to focus on specific aspects of the subject, initially through a dedicated module on marine renewable energy, and subsequently through an extensive literature review followed by a research project. The research project, which forms a major component of the course, is selected in close consultation with the students such that it is of direct relevance to their intended future work. The School of Ocean Sciences has extensive links with the marine renewable energy sector, and many of the projects will be in collaboration with industry. For overseas students, well founded projects based on investigations being undertaken in a home institute are encouraged.

Read less
This is a 12 month full-time MSc degree course (See http://www.postgraduate.hw.ac.uk/prog/msc-marine-renewable-energy/#overview ) taught at our Orkney Campus. Read more

Overview

This is a 12 month full-time MSc degree course (See http://www.postgraduate.hw.ac.uk/prog/msc-marine-renewable-energy/#overview ) taught at our Orkney Campus. It involves studying 8 taught courses. If you can demonstrate that you have already mastered the subject, you may apply for an exemption from one of the taught courses and undertake a Design Project instead. The MSc programme is completed with a research dissertation equivalent to 4 taught courses.

For more information visit http://www.hw.ac.uk/schools/life-sciences/research/icit.htm

Distance Learning

The Marine Renewable Energy MSc/Diploma is also available for independent distance learning. For distance learners, the main difference is that you will undertake the Development Project alone rather than as part of a group. You can still obtain the full MSc in Marine Renewable Energy, or you can opt to study fewer courses, depending on your needs.

Scholarships available

We have a number of fully funded Scottish Funding Council (SFC) scholarships available for students resident in Scotland applying for Marine Renewable Energy. Find out more about this scholarship and how to apply http://www.hw.ac.uk/student-life/scholarships/postgraduate-funded-places.htm .

Programme content

The Diploma and MSc degree course involves studying the 8 taught courses outlined below. If a student can demonstrate that they have already mastered the subject, they may undertake a Development Project instead of one of these courses.

- Energy in the 21st Century
This course is designed to give you a broad understanding of the environmental, political and socio-economic context for current developments in renewable energy. The course examines the extent of current energy resources and how energy markets function. It covers some energy basics you will need for the rest of the programme (e.g. thermodynamics, efficiency conversions) as well as environmental issues associated with energy use, climate change and the political and policy challenges involved in managing energy supply and achieving energy security.

- Economics of renewable energy
This course gives an understanding of the economic principles and mechanisms which affect energy markets today. It covers price mechanisms, the economics of extracting energy and the cost-efficiency of renewable energy technologies. You will learn about economic instruments used by policy-makers to address environment and energy issues, economic incentives to stimulate renewable energy development and about environmental valuation.

- Environmental Policy & Risk
This course explores the legal and policy context in which renewable energy is being exploited. You will gain an understanding of international law, particularly the Law of the Sea, property rights and how these relate to different energy resources. The course also looks at regulatory issues at the international, European and UK level, which affect how energy developments are taken forward, as well as risk assessment and management in the context of renewable energy developments.

- Oceanography & Marine Biology
This course is designed to give you an understanding of the science of waves and tides, and how this affects efforts to exploit energy from these resources. You will also learn about marine ecosystems and how these may be impacted by energy extraction and about the challenges and impacts associated with carrying out engineering operations in the marine environment.

- Marine Renewable Technologies
You will gain an understanding of renewable energy technologies which exploit wind, wave and tidal resources. The focus is on technical design issues which developers face operating in the marine environment, as well as the logistics of installation, operations and maintenance of marine energy converters.

- Renewable Technology: Integration
This course explores the technical aspects of generating renewable energy and integrating it into distribution networks. You will learn about the electricity grid and how electrical power and distribution systems work. You will find out about different renewable fuel sources and end uses, and the challenges of energy storage.

- Development Appraisal
Looking at what happens when renewable energy technologies are deployed, this course examines development constraints and opportunities: policy and regulatory issues (including strategic environmental assessment, environmental impact assessment, landscape assessment, capacity issues and the planning system). It also looks at the financial aspects (valuation of capital asses, financing projects and the costs of generating electricity) and at project management.

- Development Project
This is a team project, where students have the opportunity to apply what they have learned through the other courses in relation to a hypothetical project. You have to look at a range of issues including resource assessment, site selection, development layout, consents, planning and economic appraisal, applying the knowledge and tools you have studied.

- Dissertation
This research project (equivalent in assessment to 4 taught courses) allows you to focus on a specific area of interest, with opportunities to collaborate with businesses and other stakeholders. You choose your dissertation subject, in discussion with your supervisor.

- Additional information
If you study at our Orkney Campus, you will also benefit from a number of activities including guest lectures and practical sessions which help to develop your skills and knowledge in your field of study, and offer opportunities to meet developers and other involved in the renewable energy industry.

English language requirements

If your first language is not English, or your first degree was not taught in English, we’ll need to see evidence of your English language ability. The minimum requirement for English language is IELTS 6.5 or equivalent. We offer a range of English language courses (http://www.hw.ac.uk/study/english.htm ) to help you meet the English language requirement prior to starting your masters programme:
- 14 weeks English (for IELTS of 5.5 with no more than one skill at 4.5);
- 10 weeks English (for IELTS of 5.5 with minimum of 5.0 in all skills);
- 6 weeks English (for IELTS 5.5 with minimum of 5.5 in reading & writing and minimum of 5.0 in speaking & listening)

Distance learning students

Please note that independent distance learning students who access their studies online will be expected to have access to a PC/laptop and internet.

Find information on Fees and Scholarships here http://www.postgraduate.hw.ac.uk/prog/msc-marine-renewable-energy/#overview

Visit the Marine Renewable Energy MSc/Diploma page on the Heriot-Watt University web site for more details!

Read less
This MSc is based at our ORKNEY CAMPUS in the far north of Scotland. A unique opportunity to study a live marine environment. Marine planning, including spatial planning, is a fast developing discipline of global interest with excellent employment prospects. Read more
This MSc is based at our ORKNEY CAMPUS in the far north of Scotland. A unique opportunity to study a live marine environment.

Marine planning, including spatial planning, is a fast developing discipline of global interest with excellent employment prospects. Ambition to create jobs and growth in the ‘Blue Economy’ is made real by new technologies giving access to the wealth of resources in the oceans and seas. New approaches are needed to govern the interactions among marine industries while maintaining the aspiration for healthy seas and the conservation of ecosystems. Adaptation to the effects of climate change adds to the importance of marine planning as an essential tool in marine management.

The MSc in Marine Planning for Sustainable Development is based at the Orkney Campus but is available also at the Edinburgh Campus. Orkney is a global centre for marine energy research and development. A unique concentration of marine expertise and activity provides students with unparalleled access to key participants in the sustainable development and planning of marine industries.

The MSc involves studying eight taught courses. If you can demonstrate that you have already mastered the subject, you may apply for an exemption from one of the taught courses and undertake a Design Project instead. The MSc programme is completed with a research dissertation equivalent to 4 taught courses.

SEMESTER 1

A11MP Introduction to Marine Planning
Introduces students to the emerging policy and practice of marine planning (global and regional). It examines political, jurisdictional and rights issues in the introduction of economic activities into the marine commons (the ‘Blue Growth Agenda’). The framework of marine legislation is explained and methods of conflict resolution are explored. A series of international case studies will identify the various tools and techniques being used around the world to manage human activity and balance conservation interests with demands for economic growth.

A11OC Oceanography & Marine Ecology
Designed to give an understanding of the science of waves and tides, and how this affects efforts to exploit energy from these resources and to develop other maritime industries. Marine ecosystems are also studied and how these may be impacted by human activities and about the challenges and impacts associated with carrying out engineering operations in the marine environment.

A11ER Economics of Renewable Energy
Orkney is a world leading centre for the research and testing of marine renewables. The economics of the energy sector are studied in the context of the whole renewable energy sector, both marine and terrestrial, with particular focus on wave and tidal projects underway in the vicinity of the University.

A11DM Marine Resource Development
Examines the exploitation and use of marine resources (including oil and gas, fisheries, shipping, marine renewables, aquaculture and tourism), issues associated with development in the marine environment (including pollution and waste) and how these activities are regulated. You will learn about marine technologies in the Blue Economy and the challenges of developing and deploying technologies to exploit resources in the marine environment.


SEMESTER 2

A11PK Environmental Policy & Risk
This course explores the legal and policy context of marine governance. You will gain an understanding of international law, particularly the Law of the Sea, property rights and how these relate to different energy resources. The course also looks at regulatory issues at the international, European and UK level, which affect how energy developments are taken forward, as well as risk assessment and management in the context of marine developments. A practical EIA exercise is undertaken.


A11GI GIS for Marine and Environmental Scientists
Geographic Information System mapping is a tool which is now widely used by both developers and regulators in the management and development of marine resources. Within the context of Marine Spatial Planning the use of GIS has rapidly become the standard means of collating and analysing spatial information regarding resource use. This course will explain the principles and provide hands-on experience of applying state of the art mapping software in project based case studies.

A11DA Development Appraisal
Looking at what happens when renewable energy technologies are deployed, this course examines development constraints and opportunities: policy and regulatory issues (including strategic environmental assessment, environmental impact assessment, landscape assessment, capacity issues and the planning system). It also looks at the financial aspects (valuation of capital asses, financing projects and the costs of generating electricity) and at project management.

A11VY Practical Marine Survey
A practical field study course into the methods and techniques of marine survey. The opportunity for dive study if suitably qualified.

Additional information
This MSc is based at our ORKNEY CAMPUS. By studying in Orkney you will benefit from a number of activities including field trips, guest lectures and practical activities, which help to develop your skills and knowledge in your field of study, and offer opportunities to meet developers and others involved in the renewable energy industry.


Assistance with funding is available, please visit our website for further details and information on how to apply.

English language requirements

If your first language is not English, or your first degree was not taught in English, we’ll need to see evidence of your English language ability. The minimum requirement for English language is IELTS 6.5 or equivalent. We offer a range of English language courses to help you meet the English language requirement prior to starting your masters programme:

- 14 weeks English (for IELTS of 5.5 with no more than one skill at 4.5);
- 10 weeks English (for IELTS of 5.5 with minimum of 5.0 in all skills);
- 6 weeks English (for IELTS 5.5 with minimum of 5.5 in reading & writing and minimum of 5.0 in speaking & listening)

Read less
This MSc Programme is based at our ORKNEY CAMPUS in the far north of Scotland - a unique opportunity to study a live marine environment. Read more

MSc Marine Resource Management

This MSc Programme is based at our ORKNEY CAMPUS in the far north of Scotland - a unique opportunity to study a live marine environment.

As man increases his demands upon the oceans, their sustainable development will depend on a rational management strategy for the total resource.

The professional working in the marine environment is constantly required to be multidisciplinary, and able to appreciate the conflicts that arise between conservation and development.

The MRM programme (See http://www.postgraduate.hw.ac.uk/prog/msc-marine-resource-management-mrm-/ ) considers the sustainable development, use, conservation and management of marine resources.

Core themes include:
- Marine environmental systems.
- Resource management and conservation.
- Valuation and project management.

For more information visit http://www.hw.ac.uk/schools/life-sciences/research/icit.htm

Overview

This is a 12 month full-time MSc degree course taught at our Orkney Campus. It involves studying 8 taught courses. If you can demonstrate that you have already mastered the subject, you may apply for an exemption from one of the taught courses and undertake a Design Project instead. The MSc programme is completed with a research dissertation equivalent to 4 taught courses.

Programme content

- Conservation, Sustainable Development & Resource Management
This course takes a broad look at the principles of sustainability and sustainable resource use, including environmental ethics. You will explore the challenges faced by policy makers and marine managers when incorporating these broad principles into policy and practice. You will learn about how sensitive habitats and the species they support are managed and protected, and how impacts from development are mitigated. The course gives an introduction to biodiversity conservation and the biodiversity action planning process, as well as examining issues around the relationship between conservation and science.

- Environmental Policy & Risk
This course explores the legal and policy context in which renewable energy is being exploited. You will gain an understanding of international law, particularly the Law of the Sea, property rights and how these relate to different energy resources. The course also looks at regulatory issues at the international, European and UK level, which affect how energy developments are taken forward, as well as risk assessment and management in the context of renewable energy developments.

- Oceanography & Marine Biology
This course is designed to give you an understanding of the science of waves and tides, and how this affects efforts to exploit energy from these resources. You will also learn about marine ecosystems and how these may be impacted by energy extraction and about the challenges and impacts associated with carrying out engineering operations in the marine environment.

- Resource Development
This course examines the exploitation and use of marine resources (including oil and gas, fisheries, transport, renewables, aquaculture and tourism), issues associated with development in the marine environment (including pollution and waste) and how these activities are regulated. You will learn about marine technologies and the challenges of developing and deploying technologies to exploit resources in the marine environment.

- Introduction to Marine Spatial Planning
This course introduces students to the emerging policy and practice of marine planning (global and regional). It examines political, jurisdictional and rights issues in the introduction of economic activities into the marine commons (the ‘Blue Growth Agenda’). The framework of marine legislation is explained and methods of conflict resolution are explored. A series of international case studies will identify the various tools and techniques being used around the world to manage human activity and balance conservation interests with demands for economic growth.

- GIS
Geographic Information System mapping is a tool which is now widely used by both developers and regulators in the management and development of marine resources. Within the context of Marine Spatial Planning the use of GIS has rapidly become the standard means of collating and analysing spatial information regarding resource use. This course will explain the principles and provide hands-on experience of applying state of the art mapping software in project based case studies.

- Development Appraisal
Looking at what happens when renewable energy technologies are deployed, this course examines development constraints and opportunities: policy and regulatory issues (including strategic environmental assessment, environmental impact assessment, landscape assessment, capacity issues and the planning system). It also looks at the financial aspects (valuation of capital asses, financing projects and the costs of generating electricity) and at project management.

- Development Project
This is a team project, where students have the opportunity to apply what they have learned through the other courses in relation to a hypothetical project. You have to look at a range of issues including resource assessment, site selection, development layout, consents, planning and economic appraisal, applying the knowledge and tools you have studied.

- Additional information
If you study at our Orkney Campus, you will also benefit from a number of activities including field trips, guest lectures and practicals, which help to develop your skills and knowledge in your field of study, and offer opportunities to meet developers and others involved in the renewable energy industry.

English language requirements

If your first language is not English, or your first degree was not taught in English, we’ll need to see evidence of your English language ability. The minimum requirement for English language is IELTS 6.5 or equivalent. We offer a range of English language courses (See http://www.hw.ac.uk/study/english.htm ) to help you meet the English language requirement prior to starting your masters programme:
- 14 weeks English (for IELTS of 5.5 with no more than one skill at 4.5);
- 10 weeks English (for IELTS of 5.5 with minimum of 5.0 in all skills);
- 6 weeks English (for IELTS 5.5 with minimum of 5.5 in reading & writing and minimum of 5.0 in speaking & listening)

Find information on Fees and Scholarships here http://www.postgraduate.hw.ac.uk/prog/msc-marine-resource-management-mrm-/

Read less
The oceans do not exist in isolation but are in constant interaction with the atmosphere and underlying geology receiving energy from the sun and to a lesser extent from geothermal sources. Read more
The oceans do not exist in isolation but are in constant interaction with the atmosphere and underlying geology receiving energy from the sun and to a lesser extent from geothermal sources. The highly interdisciplinary field of Marine science, the study of the oceans from the deep sea to shallow coastal seas, aims to understand the biology, chemistry, geology and physics of this dynamic system so central to all our lives.

This programme offers students with a background in marine biology, geology or geography the opportunity to integrate their expertise in the wider marine science context.

The programme has one core course and offers a wide variety of options with maximum flexibility allowing students to pursue their studies either at our Orkney Campus or in Edinburgh.

Core course

- Oceanography and Marine Ecology
- Research Project (MSc only)

Optional courses

- Marine Resources and Sustainability
- Diversity of Marine Organisms1
- Applied Research Design & Analysis1
- Climate Change: Causes and Impacts
- Marine Ecotoxicology
- Practical Marine Ecotoxicology1
- Marine Ecology & Fisheries
- Introduction to Marine Planning
- Economics of Renewable Energy
- Environmental Processes
- Energy in the 21st Century
- Marine Biotechnology
- Practical Skills in Marine Biotechnology (Edinburgh Campus only owing to labs and practicals)
- Marine Environmental Monitoring
- Climate Change: Mitigation and Adaptation Measures
- GIS for Marine and Environmental Scientists
- Tropical Coral Reef Field Course
- Practical Skills in Marine Surveying (Orkney Campus only - field work)
- Environmental Policy & Risk
- Development Appraisal
- Development Project

Read less
Our International Marine Environmental Consultancy course meets the growing demand for marine consultants and coastal managers in UK, European and international business. Read more
Our International Marine Environmental Consultancy course meets the growing demand for marine consultants and coastal managers in UK, European and international business. You draw on key skills in industry-specific modules, learn to develop the commercial value of your knowledge and enhance your career prospects by working with industry partners on your final project.

The course brings together core ecological skills with the business elements required to compete in this growing sector. Expert academic staff maintain an extensive network of contacts. A four month consultancy project provides opportunities for developing a proposal to collaborate with a world-leading marine consultancy.

This interdisciplinary course attracts a wide range of honours graduates. Your background skills may come from geography, the law and politics as well as marine biology and the environmental sciences. An interest in the marine environment and its management, and a professional, committed attitude are essential.

You will do a research project in one of the areas of the Marine Biology, Ecosystems and Governance (MBEG) research group and key consultancies operating across these areas:
-Structural and functional integrity of ecosystems
-Biological and socio-economic drivers of ecosystem change
-Governance and management of resource use

Opportunities in other marine science research groups may exist:
-Marine Resources and Renewable Energy (MRRE):
-Antifouling and ballast water treatment
-Bacterial bioactive products
-Bioenergy

Oceans and Climate focuses on the production, consumption and air-sea exchange of greenhouse gases.

The marine science research groups form part of extensive national and international networks. Recent partnerships and collaborations include:
-The Environment Agency
-Natural England
-Northumberland Inshore Fisheries and Conservation Authority
-University of the West Indies (Barbados)
-National Oceanographic Centre Southampton (NOCS)
-University of Costa Rica
-North Sea Regional Advisory Council
-Haribon Foundation

You have the support of a marine science research community including 30 research students, six-10 post-doctoral scientists, six technicians and 13 full-time academic staff. This provides you with abundant opportunities to progress your scientific career, whether in industry or academia. Students have been successful at finding employment in industry, academia, government agencies and non-governmental organisations. You will also train to produce final projects of publishable quality.

Delivery

Modules are block taught, with intensive teaching weeks and weeks of private study. Each semester is 60 credits (in full-time mode). The intensive teaching weeks run Monday to Friday from 9am-5pm.

Teaching is delivered via lectures, seminars, practical sessions (in computer labs, on boats and shores) and personal supervision. Projects may be analytical, experimental, or field based, designed to give you the skills you need for future research.

The course finishes with a four month project. This is delivered in conjunction with consultancy partners in the UK or overseas.

Modules are delivered on the University's main campus but the Dove Marine Laboratory and the RV Princess Royal are also used as teaching venues.

Accreditation

Our course is accredited by Institute of Marine Engineering, Science and Technology (IMarEST), the first Institute to bring together marine engineers, scientists and technologists into one international multi-disciplinary professional body.

Our accreditation gives you an additional benchmark of quality to your degree, making you more attractive to graduate employers.

Read less
This multidisciplinary programme is designed to equip graduates with the knowledge and skills required to take up the exciting job opportunities arising from the recent adoption of marine spatial planning and related developments in marine conservation and the maritime industries. Read more
This multidisciplinary programme is designed to equip graduates with the knowledge and skills required to take up the exciting job opportunities arising from the recent adoption of marine spatial planning and related developments in marine conservation and the maritime industries.

Marine spatial planning is now developing as a key component of marine management. It aims to deliver a more organised sharing of sea space between demands as diverse as nature conservation, tourism, ports and shipping, renewable energy, fishing, aquaculture and mineral extraction. It seeks to integrate social, economic and environmental uses of the coast and sea.

Marine planning is being taken up by coastal nations around the world, including Australia, China, the United States of America, South Africa and several European nations, such as Germany, Portugal, the Netherlands, Poland, Norway, Sweden and the United Kingdom. Some nations, such as the UK, now have statutory provisions for planning their coastal and marine waters and bodies and procedures for preparing marine plans and implementing them. All European Union coastal states are now required to introduce marine planning, following a Directive passed in 2014.

So there is a growing demand for professionals who understand marine science and management on the one hand, and spatial planning, as has long been practised on land, on the other. This postgraduate programme bridges the gap between these two disciplines, and equips students with the knowledge and skills needed to embark on a career within marine management.
This programme leads to the award of a Master of Science degree. It is a full-time, one-year course, though it is also possible to study part-time over two years, combining studies with other responsibilities. This is the first programme of its kind to be accredited by the Royal Town Planning Institute as a specialist Masters course. Gaining the degree is a step towards professional membership of the Institute.

Here is a selection of the topics recently chosen by the MSc students for their dissertations:
• Implementation of Marine Spatial Planning in Portugal
• Global food security: finding space for aquaculture
• Stakeholder Participation in Marine Planning in the UK
• Success factors for offshore wind energy
• China’s system of Marine Functional Zoning
• Assessing the value of sand dune systems in the North West of England
• Stakeholder involvement in the Irish Sea Conservation Zone project
• Reducing the impact of offshore wind farms on seabirds
• Mitigating the impacts of tidal barrages

Read less
Ocean acidification, energy resources, coastal erosion and flooding are just some of the issues that make ocean science such an important component when addressing the world’s most pressing environmental, energy and construction challenges. Read more
Ocean acidification, energy resources, coastal erosion and flooding are just some of the issues that make ocean science such an important component when addressing the world’s most pressing environmental, energy and construction challenges. This course allows you to tailor your study towards employment in a specific sector including oceanographic and environmental research and consultancy, marine renewable energy, marine conservation management, offshore exploration and hydrographic surveying.

You will equip yourself for a career in hydrographic surveying by choosing the hydrography pathway in the final year - study the exploration and sustainable management of marine resources, construction and environmental support. You’ll conduct a research or consultancy-type project closely linked to one of our marine science research groups or industrial partners, providing an experience of working with established marine scientists and contributing to current work in a wider context.

Key features

-Gain a sound knowledge base across all areas of ocean science with options to develop specialist skills in marine conservation, oceanography or hydrography.
-Specialise in subjects that most interest you including coastal dynamics, seafloor mapping, physical oceanography, meteorology, remote sensing, offshore exploration, biological oceanography, marine pollution and conservation.
-Equip yourself for a career in hydrographic surveying by choosing the hydrography pathway in the final year (with potential high-level professional FIG/IHO/ICA accreditation) - study the exploration and sustainable management of marine resources, construction and environmental support.
-Conduct a research or consultancy-type project closely linked to one of our marine science research groups or industrial partners, providing an experience of working with established marine scientists and contributing to current work in a wider context.
-Develop your range of practical skills with our own fully-equipped fleet of boats, a new £4.65 million Marine Station used as a base for fieldwork afloat, industry standard oceanographic and surveying equipment and a type-approved ship simulator.
-Option to take the industry-recognised professional diving qualification (HSE Professional SCUBA) alongside your degree, and an optional scientific diving module to provide training and qualification for diving-based research projects and employment (limited places and additional costs apply).
-Experience an overseas field course that's aimed at integrating ocean science knowledge and understanding across the different sub-disciplines.

Course details

Year 1
Your first year, shared across the Marine Science Undergraduate Scheme, introduces the full range of topics within the degree and develops your underpinning scientific knowledge and practical skills. You’ll develop your understanding of the Earth’s oceans and the key physical, chemical, biological processes that occur in these systems. You’ll build practical skills and enhance your ability to analyse, present and interpret scientific data through field-based activities.

Core modules
-OS101 Introduction to Ocean Science
-OS103 Biology and Hydrography of the Ocean
-OS105 Mapping the Marine Environment
-OS102 Physical and Chemical Processes of the Ocean
-OS104 Measuring the Marine Environment

Optional modules
-GEES1002PP Climate Change and Energy
-GEES1003PP Sustainable Futures
-GOV1000PP One Planet? Society and Sustainability
-ENGL405PP Making Waves: Representing the Sea, Then and Now
-GEES1001PP Natural Hazards
-OS106PP Our Ocean Planet
-OS107PP Space Exploration

Year 2
In your second year, the emphasis will be on understanding core aspects of ocean science, including topics in ocean exploration, oceanography and marine conservation, and enhancing your practical and research skills. You’ll participate in a field work module based at our Marine Station, learning how to use industry standard instrumentation and software for measuring a variety of parameters in the coastal zone and you’ll develop a proposal for your final year project. There's also opportunity to apply scientific diving skills gained alongside the degree for suitably qualified individuals.

Core modules
-OS201 Global Ocean Processes
-OS202 Monitoring the Marine Environment
-OS206 Researching the Marine Environment

Optional modules
-OS208 Meteorology
-OS209 Marine Remote Sensing
-OS207 Scientific Diving
-OS203 Seafloor Mapping
-OS204 Waves, Tides and Coastal Dynamics
-OS205 Managing Human Impacts in the Marine Environment

Year 3
You’ll focus on topics with special relevance to your future plans including options across the specialisms offered through the related BSc Marine Science courses. A residential field course allows you to develop a group-based in-situ investigative study. A large part of the year is spent completing a research project, carrying out an in-depth investigation under the guidance of a member of academic staff.

Optional modules
-BPIE338 Ocean Science Placement

Year 4
Pathway options in the final year provide both an opportunity for you to pursue your choice of topic in greater depth and an opportunity to increase the breadth of your study through modules from the applied contemporary offerings of our Marine Science MSc programmes: Applied Marine Science, Marine Renewable Energy and Hydrography. You’ll conduct a research or consultancy-type project closely linked to one of our internationally-leading marine science research groups or industrial partners, providing an experience of working with established marine scientists.

Optional modules
-MAR517 Coastal Erosion and Protection
-MATH523 Modelling Coastal Processes
-MAR520 Hydrography
-MAR522 Survey Project Management
-MAR515 Management of Coastal Environments
-MAR518 Remote Sensing and GIS
-MAR521 Acoustic and Oceanographic Surveying
-MAR507 Economics of the Marine Environment
-MAR523 Digital Mapping
-MAR516 Contemporary Issues in Marine Science
-MAR519 Modelling Marine Processes

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

Read less
Renewable energy engineering is in high demand globally as we find alternate methods of energy harvesting to meet our future energy needs and future proof our reliance on hydrocarbons as much as it is possible to do. Read more

Your programme of study

Renewable energy engineering is in high demand globally as we find alternate methods of energy harvesting to meet our future energy needs and future proof our reliance on hydrocarbons as much as it is possible to do. Considerable innovation and improvements are continuous within this field as it is by no means at a stage where society can rely on it to fuel all needs. The sector is interdisciplinary and this programme provides you with a wide range of very useful skills and knowledge to problem solve and progress current renewables and work towards innovation whether that is in a renewables company or as a start up.

You study electrical and electronic engineering pertinent to smart grid, sensing energy use, developing energy harvesting techniques, and renewable energy exchange, plus ability to harvest energy from all of our natural resources including wind, solar, hydro, marine, geothermal, biomass and other newly developing areas.Renewables is definitely an employable sector as governments are now challenged by finite resources coming from traditional areas, climate change and societal concerns about how we harvest energy in the future and our ability to survive climatic issues, population increase and manage work and life.

Courses listed for the programme

Semester 1
Electrical Systems for Renewable Energy
Renewable Energy 1 (Solar and Geothermal)
Renewable Energy 2 (Biomass)
Fundamental Concepts in Safety Engineering

Second Half Session
Renewable Energy 3 (Wind, Marine and Hydro)
Energy Conversion and Storage
Renewable Energy Integration to Grid
Legislation, Planning and Economics

Semester 3
Project

Find out more detail by visiting the programme web page
https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/278/renewable-energy-engineering/
or online:
https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1077/renewable-energy-engineering/

Why study at Aberdeen?

• You study with industry professionals and industry lead projects to encourage and challenge you in practical application
• The full supply of energy is covered in the programme from the initial harvesting to the conversion methods required to link to grid
• You can study your degree at University of Aberdeen or online to fit flexibly with your needs
• You learn within a lab setting with industry visits and events in a global sector community

Where you study

• University of Aberdeen
• Online option available (above)

International Student Fees 2017/2018

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

*Please be advised that online fees may offer a different structure

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

Read less
The Faculty of Engineering runs a multi-disciplinary postgraduate course entitled Sustainable Engineering with a number of different themes, one of which is offshore renewable energy. Read more

Why this course?

The Faculty of Engineering runs a multi-disciplinary postgraduate course entitled Sustainable Engineering with a number of different themes, one of which is offshore renewable energy.

This flexible programme combines study in specialist, advanced engineering technologies underpinned with training in sustainability. The programme has been developed with direct industrial involvement to provide you with a solid understanding of modern, sustainable engineering. As well as gaining an understanding of how sustainable engineering applies to offshore renewable energy, this programme will also provide you with key transferable skills to aid your employability.

The course is designed for experienced or newly qualified engineers in:
- Naval Architecture
- Marine Engineering
- Mechanical Engineering
- Civil Engineering
- Electrical Engineering or related disciplines

The Department of Naval Architecture, Ocean & Marine Engineering, a leading institution in Scotland, offers excellent teaching and research facilities in naval architecture, ocean and marine engineering, which expands your career opportunities in naval architecture, marine, offshore oil and gas industry.

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

You’ll study

Studying at least three generic classes will meet the key requirements to attain Chartered Engineer status.

You must take three specialist classes if you are studying for the Postgraduate Certificate and up to five if you are studying for a Postgraduate Diploma or MSc.

Successful completion of six classes leads to the award of a Postgraduate Certificate.

- Group project
You’ll work with a group of students from different pathways of the Sustainable Engineering programme. You’ll produce sustainable solutions to real-life industry problems. This project will include site visits, field trips and progress reports to industry partners.
Successful completion of eight modules and the group project leads to the award of a Postgraduate Diploma.

- Individual project
MSc students will study a selected topic in depth and submit a thesis.
Successful completion of eight classes, the group project and an individual project leads to the award of an MSc.

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

Studying at least three generic modules will meet the key requirements to attain Chartered Engineer status.

Student competitions

Naval Architecture, Ocean & Marine Engineering 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 our students 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. The first semester is usually from the beginning of October and the second semester starts at the end of January.
Some of the second semester subjects are taught over eight weeks so that you can devote as much time as possible to your individual project work.
Each year about 15 experts from the industry give talks and seminars on wide-ranging topics. Industrial visits are made to a variety of companies.
You’re required to attend an induction prior to the start of the course.

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 30-40% course work and 60-70% examination

Careers

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

Job titles include:
- Graduate Design Engineer
- Project Engineer
- Renewable Energy Consultant
- Thermal Performance Engineer

Employers include:
- Arup
- Eaton
- Esteyco Energua
- Granite Services International
- Moorfield International
- Mott Macdonald

*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

Read less
The MPhil programmes provide research training, supervision and collaboration to international standards. You can choose a wide range of topics within our marine science research groups. Read more
The MPhil programmes provide research training, supervision and collaboration to international standards. You can choose a wide range of topics within our marine science research groups.

Your research project will be in one of the areas covered by the marine science research groups:

Marine Resources and Renewable Energy (MRRE)
-Antifouling and ballast water treatment
-Bacterial bioactive products
-Bioenergy

Marine Biology, Ecosystems and Governance
-Structural and functional integrity of ecosystems
-Biological and socio-economic drivers of ecosystem change
-Governance and management of resource use

Oceans and Climate focuses on the production, consumption and air-sea exchange of greenhouse gases.

Depending on your previous academic training and the requirements of the project, you receive formal instruction through taught modules in important areas such as laboratory safety and sea survival.

The research community in the School of Marine Science and Technology includes 30 research students, 10-20 MSc students, six to 10 post-doctoral scientists, six technicians and 13 full-time academic staff. This provides you with abundant opportunities to progress your scientific career in any sector. Our research students have been successful at finding work across industry, academia, government agencies and non-governmental organisations.

Delivery

This research degree operates through the Postgraduate Researcher Development Programme (PGRDP). This is part of the Faculty of Science, Agriculture and Engineering (SAgE) Graduate School.

Your original research project is managed in the marine science research groups. There is flexibility in how your research outputs are achieved. Supervisory inputs and collaborations with other schools and faculties are common. Input from outside the University, eg Research Council (RCUK) CASE studentships, is also encouraged.

The programme of work is tailored to your project requirements. You will achieve a certain number of credits through the PGRDP and School in your first two years. You will also:
-Write a thesis for viva voce examination
-Attend regional and international conferences in your chosen subject area
-Prepare papers for publication in academic journals

Work experience

Many research projects include industrial work experience. Other projects involve working with other universities, government institutes and scientific associations. The marine science research groups form part of extensive national and international networks. Recent collaboration includes:
-The Environment Agency
-Natural England
-Northumberland Inshore Fisheries and Conservation Authority
-University of the West Indies (Barbados)
-National Oceanographic Centre Southampton (NOCS)
-University of Costa Rica,
-North Sea Regional Advisory Council
-Haribon Foundation

Read less
This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and assessed by coursework and examinations. Read more
This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and assessed by coursework and examinations. The course provides theoretical and practical training in measuring, quantifying and understanding the physical processes within the geological marine environment. It provides a sound scientific basis on which to decide how best to design and execute marine surveys, be they geophysical, sedimentological or geological, for the required purpose.

The MSc in Applied Marine Geoscience evolved from its predecessor, the Marine Geotechnics course which boasted a 30 year pedigree.

A series of modules have been designed to explain the processes that form and characterise a wide variety of sedimentary environments, from the littoral zone to the deep ocean. Those controls range from the dynamical, chemical, climatic to geological; all are inter-related. The student also gains knowledge and understanding of survey techniques in order to map these environments and thereby gain a better understanding of the processes that shape them. The final facet of the course involves an explanation of how these sedimentary materials react to imposed loads - how they behave geotechnically.

From past experience it is found that students on completion of the course will find employment in the offshore hydrocarbons industry, geophysical contract companies (both offshore and terrestrial), geotechnical engineering companies, river and harbour boards or government establishments. The course may also lead students to further academic research studies.

Aims of the course
The aim of the course is to provide the world with people who

understand the inter-relationships between the forces which shape the marine geological environment,
have mastered the practical and analytical techniques necessary to study those controls and survey the geological settings
can critically analyse their findings and present them at a standard and in a form required by end-users, be they commercial or academic.
Whilst the form and style of presentation of work may differ, the skills required by doctoral students and those by potential employers (the marine geoservices industry) overlap to a large extent. Specifically identifying aspects of the course in this light, we aim to enable the students to:

be skilled in planning and acquiring good quality data in the laboratory and in the field in a safe manner
be able to work as a team in the acquisition of larger data-sets
appreciate the importance of recognising the limitations of model-based interpretation of data
review and critically analyse previous work both before and after undertaking data acquisition or modelling
understand the fundamental workings of the offshore geoservices industry
In a more general sense, the course is designed to act as a conversion course for a physical scientist who wants to hone their research skills whilst at the same time getting a grasp of how those skills are applied to solve both academic and commercially based problems. An important part of the course philosophy is the idea that the challenges that face marine geoscientists can often only be solved by taking a multi-disciplinary approach and we instil this idea of wider thought into our graduates.

The course aims to place the student in a strong position to go on to doctoral studies on issues such as palaeoclimatology, geophysics or sedimentology; or enter directly into the offshore industry e.g. to geohazard analysis, or offshore renewable energy exploitation.

Read less

Show 10 15 30 per page



Cookie Policy    X