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Heriot-Watt University, Full Time Masters Degrees in Environmental Sciences

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

Overview

This is a 12 month full-time Masters degree (See http://www.postgraduate.hw.ac.uk/prog/msc-renewable-energy-development-red-/ ) course taught at our Orkney Campus. It involves studying 8 taught courses and completing a research dissertation equivalent to 4 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.

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

Distance learning

The Renewable Energy Development 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 Renewable Energy Development, or you can opt to study fewer courses, depending on your needs.

Programme content

- 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.

- Environmental Processes
Particularly for those without a natural science background, this course provides a broad overview of the environmental processes which are fundamental to an understanding of renewable energy resources and their exploitation. You will study energy flows in the environment, environmental disturbance associated with energy use, and an introduction to the science of climate change. You will also learn about ecosystems and ecological processes including population dynamics and how ecosystems affect and interact with energy generation.

- Renewable Technology I: Generation
This course explores how energy is extracted from natural resources: solar, biomass, hydro, wind, wave and tide. It examines how to assess and measure the resources, and the engineering solutions which have been developed to extract energy from them. You will develop an understanding of the technical challenges and current issues affecting the future development of the renewable energy sector.

- Renewable Technology II: 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 assets, 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.

- Optional design project
For students who can demonstrate existing knowledge covered by one of the courses, there is the option of understanding a design project supervised by one of our engineers.

- 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 others involved in the renewable energy industry.

Scholarships available

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

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)

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-renewable-energy-development-red-/

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Climate change is recognised as having potentially huge impacts on the environment and on human society. Read more
Climate change is recognised as having potentially huge impacts on the environment and on human society. This programme aims to provide an understanding of climate change causes, impacts, mitigation and adaptation measures from a life science perspective in conjunction with developing a wide variety of mathematical modelling skills that can be used to investigate the impacts of climate change.

The programme closely follows the structure of our Applied Mathematical Sciences MSc. Two of the mandatory courses will specifically focus on understanding the issues related to climate change and are taught by the School of Life Sciences.

Students will take a total of 8 courses, 4 in each of the 1st and 2nd Semesters followed by a 3-month Project in the summer. A typical distribution for this programme is as follows:

Core courses

Modelling and Tools;
Mathematical Ecology;
Climate Change: Causes and Impacts;
Climate Change: Mitigation and Adaptation Measures;
Dynamical Systems (recommended);
Stochastic Simulation (recommended)

Optional Courses

Optimization;
Mathematical Biology and Medicine;
Numerical Analysis of ODEs;
Applied Mathematics;
Statistical Methods;
Applied Linear Algebra;
Partial Differential Equations;
Numerical Analysis;
Geometry;
Bayesian Inference.

Typical project subjects

Population Cycles of Forest Insects;
Climate Change Impact;
The replacement of Red Squirrels by Grey Squirrels in the UK;
Vegetation Patterns in Semi-arid Environments;
Daisyworld: A Simple Land Surface Climate Model.

The final part of the MSc is an extended project in mathematical modelling the impacts of climate change on environmental systems, giving the opportunity to investigate a topic in some depth guided by leading research academics.

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This MSc programme is delivered by the International Centre for Island Technology (ICIT) at our Orkney Campus. It has been designed to promote an integrated, participatory approach to nurture and strengthen quantitative skills in science and environmental graduates using locally relevant issues. Read more

Integrative Marine Data Skills

This MSc programme is delivered by the International Centre for Island Technology (ICIT) at our Orkney Campus. It has been designed to promote an integrated, participatory approach to nurture and strengthen quantitative skills in science and environmental graduates using locally relevant issues. It will build a broad understanding of marine ecosystems, ecosystem services and associated management issues. Teaching is strongly reinforced with laboratory, fieldwork and project work, with emphasis placed on simulating real work situations. Strong links with industry partners, policy-makers and regulators ensure relevance within this sector. It will produce students who are quantitatively competent and literate, capable of interpreting and communicating findings, with work-ready skills (field and industry) to facilitate employment in a competitive marketplace where demand for data-savvy students is high.

Course content

Semester 1:

Advanced Research Skills 1 – Data Collecting and Handling (core)
Data is increasingly important in today’s society with huge quantities generated by the maritime sector to address a range of environmental and economically important issues. However, a specific set of skills are required to handle, extract, manipulate, analyse and communicate these data sets. Students will collect data across three platforms: shoreline, oceanic and remote, providing work-ready technical, laboratory and field skills. This course will build quantitative confidence and competency, providing graduates with the skills essential to understanding, responding to, and mitigating today’s environmental challenges.

Advanced Research Skills 2 – Statistical and Numerical Techniques (core)
The ability to problem-solve, think critically and apply mathematics has been severely eroded across education sectors, with this deficit being transferred to the working environment. Skills in numeracy, data mining, data management and modelling have been highlighted as being in demand. This course will utilise environmentally relevant, local long-term data sets collected in Advanced Research Skills 1 to strengthen skills in data analysis using a range of methods. This course is not targeting students with a strong numerical or modelling background, instead it aims to build confidence with analytical techniques and provide a broad, yet solid depth of knowledge.

Oceanography and Marine Ecology (core)
This course will 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. The challenges and impacts associated with engineering operations in the marine environment are examined. Marine ecosystems and ecosystems services are also studied and how these are impacted by human activities.

Introduction to Marine Planning (core)
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.

Semester 2:

Case Study and Project Design (core)
This course will facilitate the interpretation and communication of data and promote teamwork skills and engagement with a broad range of end-users, fostering responsive management skills. It is an essential follow-on core component from Advanced Research Skills 1 and 2 in Semester 1 to further consolidate the quantitative learning experience and promote synergies with local industry, stake-holders and communities. The course will capitalise on the strong networks already in place at ICIT with staff, local industry and community groups.

GIS for Marine and Environmental Scientists (optional)
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.

Environmental Policy and Risk (optional)
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 examines regulatory issues at the international, European and UK level, as well as risk assessment and management in the context of marine developments. A practical EIA exercise is undertaken.

Practical Skills in Marine Surveying (optional)
Students entering employment in marine conservation or marine resource management are often required to plan or manage surveys of the marine environment in the role of either client or contractor. Diving is often the most effective method for conducting surveys to monitor or map marine biota. This course will provide students with the requisite knowledge for designing and managing such projects utilising scientific diving techniques.

Marine Environmental Monitoring (optional)
This course will provide an understanding of: the scientific background of natural processes in estuarine and coastal environments as a necessary prerequisite for understanding monitoring and management; the fundamentals of the design and applications of environmental monitoring programmes; the role of impact assessment in resource management, conservation and pollution control and legal framework supporting this process; and the importance of the scientific dimension underpinning estuarine and coastal management.

Tropical Coral Reefs: Monitoring and Management Field Course (Malaysia) (optional)
(Additional fee for flights and subsistence)
Students will experience different techniques used for surveying and monitoring coral reefs, to provide an understanding of the sampling and other issues which influence choice of method. It will provide students with an impression of the environmental pressures affecting reef habitats as a result of climate change, tourism related development, and of the range of management measures which may be introduced to promote sustainable use of reef resources. It will familiarise students with the main forms of fish, coral and invertebrates which characterise reefs. In addition, the course gives the chance to examine other marine habitats that are often closely inter-related with reefs: e.g. sea-grass beds.

More information:

https://www.hw.ac.uk/uk/orkney.htm
https://www.hw.ac.uk/schools/energy-geoscience-infrastructure-society/research/icit/orkney.htm
https://www.hw.ac.uk/study/why/our-rankings.htm

Fees and Scholarships

https://www.hw.ac.uk/study/fees/scholarships-bursaries.htm

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!

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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
Climate change is recognised as having potentially huge impacts on the environment and on society. The study of the causes and impacts of climate change and the measures required to mitigate the impacts and adapt is complex. Read more
Climate change is recognised as having potentially huge impacts on the environment and on society. The study of the causes and impacts of climate change and the measures required to mitigate the impacts and adapt is complex. It is essential that scientists, engineers and environmental decision-makers understand the fundamentals of the causes, impacts and management measures involved in dealing with such important issues.

The MSc course offers one core module to introduce climate change causes and impacts (Semester 1) and reviews the possible mitigation and adaptation measures in a second (Semester 2). The course structure allows for three optional and relevant modules each semester from amongst the University's postgraduate syllabus so that a 'tailored' course can be constructed.

For potential optional modules please refer to the module/subject areas available and listed in other School MSc courses, specifically those of the School of Engineering and Physical Sciences, School of Mathematical and Computer Sciences, and School of the Built Environment. Advice will be given on the most appropriate modules available from the different Schools of the University in topics ranging across scientific, engineering, economics and management modules.

CORE MODULES

Climate Change: Causes and Impacts
Climate Change: Mitigation and Adaptation Measures
Research Project (MSc only)

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From its years of academic research and industrial consultancy experience as one of the main UK Marine Technology Centres, the University recognises the need for an interdisciplinary approach to both the development and the protection of ocean resources. Read more
From its years of academic research and industrial consultancy experience as one of the main UK Marine Technology Centres, the University recognises the need for an interdisciplinary approach to both the development and the protection of ocean resources. In these times of rapid global change, it is essential that scientists and environmental decision-makers understand the fundamentals of the technologies involved in different development options, whilst engineers should be encouraged to adopt an understanding of the environmental, socio-economic and political aspects of any proposed project. The course covers all these areas.

CORE MODULES

Marine Resources: Utilisation, Interactions and Control
Marine Ecotoxicology
Marine Biotechnology
Coastal and Estuarine and Pollution Control
Research Project (MSc only)

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Water and Environmental Management aims to provide students with a multi-disciplinary understanding of water resources and environmental issues through the development of knowledge and skills necessary for the planning and management of these resources to meet the needs of society and the environment within the context of climate change. Read more
Water and Environmental Management aims to provide students with a multi-disciplinary understanding of water resources and environmental issues through the development of knowledge and skills necessary for the planning and management of these resources to meet the needs of society and the environment within the context of climate change.

About the programme

On-campus (full-time/part-time) students study eight courses from a range of optional courses. Independent Distance Learning (IDL) students can also choose courses from a range of options in both Semester 1 and 2.

The programme is delivered by experts in the field of water and environmental management, covering a wide range of relevant disciplines.

Topics covered:
=============
• Environmental Hydrology and Water Resources
• Computational Simulation of River Flows
• Water Supply and Drainage for Buildings
• Water Conservation
• Environmental Geotechnics
• Urban Drainage and Water Supply
• Water and Wastewater Treatment
• Marine Waste Water Disposal
• Environmental Statistics
• Innovative Technologies and Global Water Challenges
• Environmental Planning (on-campus only);
• Flood Inundation Modelling (on-campus only);
• Irrigation Water Management.

Career opportunities

Training is provided in water resources engineering, environmental engineering, flood risk management, integrated water resources management, environmental implications of water engineering schemes, and industrial software packages. On completion, graduates will be able to offer employers a broad range of skills and advanced knowledge in a number of important areas of water engineering.

Primary employment destinations include:
- Leading UK and international consultants (e.g. Jacobs, HR Wallingford, JBA, Halcrow, Hyder Consulting and Fairhursts)
- Local and National Government (in the UK and elsewhere)
- Environmental regulators (e.g. SEPA & EA)
- Academic institutions (including PhD study and research associate posts)
- Non-Governmental Organisations

Professional recognition

This MSc 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. See http://www.jbm.org.uk for further information.

Part-time and Distance Learning study options

This programme can be studied full-time, part-time or via Independent Distance Learning (IDL), ideal for those in employment or with other commitments, providing flexible study options that fit around work or family. As an IDL student you will not be required to attend any lectures, tutorials or other events at any of Heriot-Watt University’s campuses.

Industry Links

Where possible MSc dissertation projects are set up in collaboration with industry, the aim being to encourage contact between the student and industry, and to underpin the industrial relevance of the projects.

This programme is supported by the Civil Engineering Industry Advisory Committee, which includes representatives from major multi-national employers AECOM, ARUP, Balfour Beatty, Halcrow, Jacobsand WSP Group. This committee convenes regularly and advises on the programme content and structure, ensuring quality, up-to-date content and relevance to industry needs.

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

Read less
Large global changes, and climate change in particular, are having significant impacts on the environment. The study of impacts and mitigation/adaptation measures in the marine environment requires a truly interdisciplinary approach. Read more
Large global changes, and climate change in particular, are having significant impacts on the environment. The study of impacts and mitigation/adaptation measures in the marine environment requires a truly interdisciplinary approach. It is essential that scientists, engineers and environmental decision-makers understand the fundamentals of the causes, impacts and management measures involved in dealing with such important issues. The course specialises in the challenges facing the marine environment and is part of the University's programme of teaching and research in climate change related issues. There are a variety of optional modules available but the core modules are listed below.

CORE MODULES

Climate Change: Causes and Impacts
Marine Conservation and Sustainability
Climate Change: Mitigation and Adaptation Measures
Research Project (MSc only)

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The biodiversity of the marine environment is of enormous importance to humans as a resource for food, pharmaceuticals and ecosystem services. Read more
The biodiversity of the marine environment is of enormous importance to humans as a resource for food, pharmaceuticals and ecosystem services. The School's Centre for Marine Biodiversity and Biotechnology (CMBB) focuses on research using traditional and newly developing molecular methods to study these important marine resources and products. The rapid loss of biodiversity both on land and in the sea makes it especially important that good knowledge is obtained to enable the appropriate management of the lesser known marine resources.

The programme covers a broad range of issues in four taught core courses enabling students to choose four other taught courses from a variety of options available within the School and elsewhere in the University's programme of MSc programmes.

CORE COURSES

Marine Conservation and Sustainability
Diversity of Marine Organisms
Applied Research Design and Analysis
Marine Monitoring and Pollution Control
Marine Biotechnology

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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)

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The Oil and Gas Innovation MSc is a project-led masters programme which will equip students with the skills and competencies to generate and commercialise innovations for the oil and gas industry. Read more
The Oil and Gas Innovation MSc is a project-led masters programme which will equip students with the skills and competencies to generate and commercialise innovations for the oil and gas industry.

The programme is a collaboration between the Oil & Gas Innovation Centre (OGIC) and a range of Scottish Universities, including the University of Aberdeen (lead), Heriot-Watt, Strathclyde University, University of St Andrews, Glasgow Caledonian University, University of the Highlands and Islands and Robert Gordon University to develop new technologies in exploration, production and decommissioning.

The collaborative nature of this programme means that in addition to courses at Heriot-Watt's Institute of Petroleum Engineering, students will also take modules at the University of Aberdeen and the University of Strathclyde giving them the unique opportunity to benefit from the oil and gas expertise available at each of these three institutions.

Our students

The Oil and Gas Innovation MSc by Research is aimed at:

• Technical staff who have identified an innovation or have expertise likely to yield innovative solutions and want to learn how to commercialise these.
• Business developers who have identified an opportunity to innovate in the oil and gas sector and seek to understand the framework of the industry and its supply chain.
• Managers or technical staff who are seeking innovative solutions for their challenges and want to equip themselves with the knowledge and leadership skills to enable their companies to identify, validate and commercialise possible solutions.
• Graduates in engineering or science, who have the qualities and ideas required to become leaders in innovation.

About the programme

This research-led MSc will include courses taken at Heriot-Watt University, the University of Aberdeen and the University of Strathclyde.

The project in Oil and Gas Innovation (75% of the degree) can be completed in a company or university.

Topics covered:
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• Business Essentials for Innovators (University of Strathclyde) - 10 credits
• Product Development (University of Strathclyde) - 5 credits
• Commercialising Innovation (University of Aberdeen) - 15 credits
• Technical Elective (Heriot-Watt)
• Project Scoping (Heriot-Watt)
• Project in Oil and Gas Innovation (Heriot-Watt) - 120 credits

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

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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

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