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Masters Degrees (Erosion)

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Coastal erosion. Threatened resources. Pollution. With increasing awareness of the importance of the world's oceans as a natural resource and of their role in the stability of the global climate and environment, marine science specialists are in high demand. Read more
Coastal erosion. Threatened resources. Pollution. With increasing awareness of the importance of the world's oceans as a natural resource and of their role in the stability of the global climate and environment, marine science specialists are in high demand. Our vocational programme provides you with the scientific knowledge, skills and experience – together with practical field experience carried out with local marine partners and companies – you need for an exciting career in marine science.

Key features

-Join a long established (1991), well-respected programme with an excellent record for employment in the marine sciences sector.
-Develop confidence and competence in the theoretical and practical dimensions of marine science, deepening your scientific knowledge of the coastal environment and the pressures placed on it.
-Gain the skills and knowledge required to work as a marine scientist through a vocationally relevant programme, while also benefitting from our strong research-based teaching, supported by our marine research groups.
-Become experienced in coastal zone management using a range of practical techniques and approaches to problem solving.
-Connect with local marine organisations through the Plymouth Marine Sciences Partnership, which includes the Universities' Marine Institute, Marine Biological Association, Plymouth Marine Laboratory and the National Marine Aquarium.
-Make the most of our links to commercial consultancy companies, local councils and environmental organisations that can provide project ideas and supervision on your dissertation.
-Access an extensive range of field/laboratory equipment, including the COaST laboratories, our research vessel RV Falcon Spirit and a new waterfront marine centre.
-Build the skills required to assimilate knowledge over a wide range of disciplines and apply them to environmental analysis.
-Benefit from the option of studying this programme part time.

Course details

Our programme is 100 per cent coursework assessed and teaching activities are based around taught modules, field and laboratory work and an extended research project. There are visits to local bays and estuaries and a field week working with complex instrumentation in the lab and at sea. Semester one modules include management of coastal environments, marine science and research skills and methods. In the second semester students follow one core module in contemporary issues in marine science and choose two option modules from: remote sensing and geographical information systems, managing marine ecosystems, coastal erosion and protection, economics of the marine environment and modelling marine processes. You can carry out your research project and dissertation over both semesters in any area of marine science, working with experts within the University and external bodies (e.g. PML, Fugro-GEOS) in the UK and abroad. Topics include projects in both pure and applied research.

Core modules
-MAR513 Research Skills and Methods
-MAR515 Management of Coastal Environments
-MAR514 Marine Science
-MAR524 MSc Dissertation
-MAR516 Contemporary Issues in Marine Science

Optional modules
-MAR517 Coastal Erosion and Protection
-MAR530 Managing Marine Ecosystems
-MAR507 Economics of the Marine Environment
-MAR518 Remote Sensing and GIS
-MAR519 Modelling Marine Processes

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.

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This programme is for graduates who wish to pursue a career in the environment sector in the UK or internationally, or those already working in the sector seeking to enhance their skills and employability. Read more
This programme is for graduates who wish to pursue a career in the environment sector in the UK or internationally, or those already working in the sector seeking to enhance their skills and employability. Graduates have an excellent track record of securing jobs in environmental consultancy, research and government agencies.

The unique emphasis of this programme is the practical challenge of measuring, analysing and evaluating dynamic environmental data for environmental problem-solving and management purposes. Learning is focussed around practical field and laboratory work.

A key element of the programme is the dissertation, for which students undertake research relating to any special interests they have in environmental management.

Core study areas include tools for river management, lake monitoring and management, wind erosion measurement and mitigation, natural hazard and catastrophe modelling, applied environmental GIS, hydroclimatological monitoring and modelling, evidence-based environmental management, research design, professional practice in environmental management, and a dissertation.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/geography/environmental-monitoring-management/

Programme modules

Environment-specific theory and skills:
- Tools for River Management
- Lake Monitoring and Management
- Wind Erosion Measurement and Mitigation

Generic skills:
- Natural Hazard and Catastrophe Modelling for Environmental Management
- Applied Environmental GIS
- Hydroclimatological Monitoring and Modelling
- Evidence-based Environmental Management
- Research Design
- Professional Practice in Environmental Management

Research Project:
- Dissertation

Selection

Interviews may be held on consideration of a prospective student’s application form. Overseas students are often accepted on their grades and strong recommendation from suitable referees.

Assessment

Coursework reports and a dissertation of up to 50 pages on an agreed topic.

Careers and further study

Our graduates have outstanding employment prospects. Recent graduates are working in research, consultancy and government agencies in the fields of flood risk modelling and engineering, catastrophe risk analysis, water quality monitoring and transport planning.

Scholarships and sponsorships

Support may be available in the form of scholarships, and studentships awarded on a competitive basis.

Why choose geography at Loughborough?

The Department of Geography is a dynamic and vibrant place to be a postgraduate student and we are proud of our reputation for creating a friendly, supportive working environment.

We have over 25 academic staff who are all leading international experts in their fields.For example, our human geographers conduct research that informs government policy on student housing, international aid, alcohol policy and community cohesion, while our physical geographies continue to influence climate adaptation and development planning, the management of river sediments, and conservation management.

The work undertaken in our Department spans the breadth of contemporary physical and human geographical research (and involves strong connections into other disciplines) and deals with many of the most striking environmental, social and economic challenges facing our world, as demonstrated by our innovative programmes.

- Research
Postgraduate research, whether at PhD or MSc dissertation level, is a very important part of the academic life of our Department, and we invest a great deal of time and resources in supporting postgraduate students in their research.

- Career prospects
Loughborough postgraduates are highly employable. Employability skills are embedded throughout our programmes, with graduates appointed to posts across a full range of industries and sectors. Almost all of our postgraduates are in employment within a few months of graduating, and many who have studied in the Geography Department have embarked on academic research careers.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/geography/environmental-monitoring-management/

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One of the fundamental challenges associated with hydrocarbon production is ensuring the integrity of the assets used to extract and transport process fluids, particularly from effects such as internal corrosion. Read more

One of the fundamental challenges associated with hydrocarbon production is ensuring the integrity of the assets used to extract and transport process fluids, particularly from effects such as internal corrosion. As a result, the demand for qualified corrosion engineers with specific expertise in oilfield operations continues to grow.

This course is appropriate for professional engineers in industry who are seeking to expand their expertise, as well as graduate engineers or physical scientists looking to gain specialist knowledge relevant to the oil and gas sector.

The course develops your skills in measuring, predicting and managing corrosion as well as assessing asset integrity. Optional modules allow you to focus on topics relevant to your interests and career plans.

Taught by academic staff at the forefront of their fields, the course enables you to develop a range of skills and a solid knowledge base from which to launch an exciting career within the oil and gas industry.

You’ll learn in a stimulating research environment supported by world-class specialist facilities which support the individual project element of the programme. These include access to equipment such as high temperature/high pressure autoclaves, quartz crystal microbalance, erosion-corrosion rigs/flow loops, rotating cylinder electrodes/bubble cells, visualisation cells and potentiostats with AC/DC capabilities.

The projects are also supported by access to our corrosion lab’s own advanced surface analysis suite, containing optical microscopes, mini-sims, IR/UV spectroscopy techniques, atomic force microscopes and a nano-indenter.

Accreditation

This course is accredited by the Institute of Mechanical Engineers (IMechE) under licence from the UK regulator, the Engineering Council.

Course content

Core modules in each semester provide you with a thorough understanding of key aspects of oilfield corrosion engineering. You’ll study topics which cover aspects such as material selection, chemical inhibition, surface engineering technologies, the principles of physical metallurgy, electrochemistry and corrosion management strategies for new or mature assets.

You’ll also select from optional modules that allow you to focus on specific topic areas such as tribology and its impact on mechanism design or engineering computation. Modules are also available through Leeds University Business School covering aspects of operations management, to prepare you for a range of roles in industry.

Throughout the programme you’ll complete your Professional Project – an independent piece of research on a topic within mechanical engineering that allows you to demonstrate your knowledge and skills. In the two taught semesters you’ll review the literature around a specific topic (chosen from an extensive list provided) and plan the project, before completing the design, analysis, computation, experimentation and writing up in the summer months.

Want to find out more information about your modules?

Take a look at the Oilfield Corrosion Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Metals and Alloys 15 credits
  • Materials Selection and Failure Analysis 15 credits
  • Oilfield Chemistry and Corrosion 15 credits
  • Advanced Oilfield Corrosion 15 credits
  • Surface Engineering 15 credits
  • Professional Project 75 credits

Optional modules

  • Materials Structures and Characterisation 15 credits
  • Risk Perception and Communication 15 credits
  • Effective Decision Making 15 credits
  • Managing for Innovation 15 credits
  • Engineering Computational Methods 15 credits
  • Introduction to Tribology 15 credits
  • Computational Fluid Dynamics Analysis 15 credits

For more information on typical modules, read Oilfield Corrosion Engineering MSc(Eng) in the course catalogue

Learning and teaching

Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings.

Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.

Assessment

You’ll be assessed using a range of techniques including case studies, technical reports, presentations, poster sessions, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.

Projects

The professional project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.

Most projects are experimentally based and linked with companies within the oil and gas industry to ensure the topic of research is relevant to the field whilst also addressing a real-world problem.

Recent projects for MSc Oilfield Corrosion Engineering students have included:

  • Corrosion of wellbore materials under high temperature and pressure
  • Nanotechnology applications in oil and gas for advanced corrosion protection
  • Evaluation of green inhibitors
  • Understanding galvanic corrosion of welds in high shear conditions
  • Application of acoustic emission as a tool for predicting erosion severity
  • Development and testing of a novel, custom cell to understand top of line corrosion

Career opportunities

With this qualification, excellent career options are open to you to practise as a professional corrosion engineer and play a major role in ensuring the safe and efficient recovery of natural resources.

Graduates have gone on for a range of companies such as BP, Petronas, Wood Group Kenny and EM&I.

You’ll also be well prepared to continue with research in this field, either within industry or at PhD level within academia.

Careers support

You’ll have access to the wide range of engineering and computing careers resources held by our Employability team in our dedicated Employability Suite. You’ll have the chance to attend industry presentations book appointments with qualified careers consultants and take part in employability workshops. Our annual Engineering and Computing Careers Fairs provide further opportunities to explore your career options with some of the UKs leading employers.

The University's Careers Centre also provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website



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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.

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Programme description. This programme will give you a fundamental understanding of the issues affecting the Earth enabling you to play a vital role in devising and enacting strategies to protect and conserve the environment, both in Europe and beyond. Read more

Programme description

This programme will give you a fundamental understanding of the issues affecting the Earth enabling you to play a vital role in devising and enacting strategies to protect and conserve the environment, both in Europe and beyond.

Human activities are recognised as having an increasingly significant effect on the Earth’s biosphere. Our use of natural resources, deforestation, soil erosion, the release of potentially toxic compounds and pathogens, and the increase in greenhouse gases are all examples of pressures that have potentially serious consequences for humanity and other life on Earth.

On this programme you will learn about the issues that face the Earth and gain an in-depth understanding of natural resource management and the processes that give rise to environmental degradation and pollution problems.

It will allow you to play a vital role in planning and putting into action strategies to protect and conserve the environment.

This programme is run in collaboration with Scotland’s Rural College (SRUC).

This programme is affiliated with the University's Global Environment & Society Academy.

Programme structure

This programme involves two semesters of taught courses, which are a balance of lectures, seminars, workshops and visits, plus a research dissertation project of about 16,000 words.

Compulsory courses typically will be:

  • Atmospheric Quality and Global Change
  • Analysing the Environment
  • Land Use/Environmental Interactions
  • Analysing the Environment Study Tour
  • Dissertation

Option courses:

You will also choose four optional courses^. We particularly recommend the following:

  • Soil Protection and Management
  • Integrated Resource Management
  • Ecosystem Dynamics and Functions
  • Marine Systems and Policies
  • Archives: History, Geography, Politics
  • Carbon Capture and Transport
  • Culture, Ethics & Environment
  • Encountering Cities
  • Environmental Geochemistry
  • Foundations in Ecological Economics
  • Human Dimensions of Environmental Change and Sustainability
  • Principles of Environmental Sustainability
  • Principles of GIS
  • Project Appraisal
  • Understanding Environment and Development
  • Values and the Environment
  • Environmental Impact Assessment
  • Waste Reduction and Recycling
  • Sustainability of Food Production
  • Participation in Policy and Planning
  • Forests and Environment
  • Carbonate Sequence Stratigraphy
  • Climate Change and Corporate Strategy
  • Hyperspectral Remote Sensing
  • Integrated Resource Planning
  • Introduction to Environmental Modelling
  • Political Ecology
  • Ecosystem Values and Management
  • Soil Science Concepts and Application
  • Water Resource Management

Courses are offered subject to timetabling and availability and are subject to change.

Field trip

Part of this programme is a week-long study tour in spring. Past study tours have been held in France, Greece, Portugal, Israel and Morocco.

Learning outcomes

Students will:

  • develop a scientific understanding of some of the major processes which influence the quality of land, air and water resources
  • acquire knowledge of the most effective methods of environmental protection
  • develop expertise in the design and implementation of programmes of environmental protection
  • have the opportunity to study the integrated protection and management of particular ecosystems or resources

Career opportunities

Our graduates have a solid record in finding employment in the environmental sector while some choose to further their studies through a PhD.

There are also opportunities in consultancy positions and with environmental regulators, government and NGOs.

Student experience

Would you like to know what it’s really like to study at the School of GeoSciences?

Visit our student experience blog where you can find articles, advice, videos and ask current students your questions.



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Coastal erosion. Threatened resources. Pollution. With increasing awareness of the importance of the world's oceans as a natural resource and of their role in the stability of the global climate and environment, marine science specialists are in high demand. Read more
Coastal erosion. Threatened resources. Pollution. With increasing awareness of the importance of the world's oceans as a natural resource and of their role in the stability of the global climate and environment, marine science specialists are in high demand. Our vocational programme provides you with the scientific knowledge, skills and experience – together with practical field experience carried out with local marine partners and companies – you need for an exciting career in marine science.

Key features

-Join a long established (1991), well-respected programme with an excellent record for employment in the marine sciences sector.
-Develop confidence and competence in the theoretical and practical dimensions of marine science, deepening your scientific knowledge of the coastal environment and the pressures placed on it.
-Gain the skills and knowledge required to work as a marine scientist through a vocationally relevant programme, while also benefitting from our strong research-based teaching, supported by our marine research groups.
-Become experienced in coastal zone management using a range of practical techniques and approaches to problem solving.
-Connect with local marine organisations through the Plymouth Marine Sciences Partnership, which includes the Universities' Marine Institute, Marine Biological Association, Plymouth Marine Laboratory and the National Marine Aquarium.
-Make the most of our links to commercial consultancy companies, local councils and environmental organisations that can provide project ideas and supervision on your dissertation.
-Access an extensive range of field/laboratory equipment, including the COaST laboratories, our research vessel RV Falcon Spirit and a new waterfront Marine Station.
-Build the skills required to assimilate knowledge over a wide range of disciplines and apply them to environmental analysis.
-Benefit from the option of studying this programme part time.

Course details

Our programme includes taught modules, research training, laboratory work, coursework, exams, a research project and dissertation. There are visits to local bays and estuaries and a field week working with complex instrumentation in the lab and at sea. Period one concentrates on research training and a multi-disciplinary overview of the marine sciences. Periods two and three are spent on your research project and dissertation. You can carry out your research project and dissertation with external bodies (e.g. PML, Fugro-GEOS, Astra-Zeneca) in the UK and abroad. Topics include projects in both pure and applied research. Due to the extended nature of the MRes research project, you take an additional module on project planning at the start of your dissertation period that provides underpinning and support for the development of your research project. You are also required to successfully defend your completed dissertation by viva voce with an external examiner.

Core modules
-MAR513 Research Skills and Methods
-MAR515 Management of Coastal Environments
-MAR514 Marine Science
-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.

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Measuring, describing and depicting the seabed is crucial to the maintenance and development of ports, safe navigation, offshore renewables and the continuing search for hydrocarbons. Read more
Measuring, describing and depicting the seabed is crucial to the maintenance and development of ports, safe navigation, offshore renewables and the continuing search for hydrocarbons. Yet there is an international shortage of hydrographic surveyors. Seize this opportunity to gain a thorough knowledge of the science and technology of hydrography, experiencing the latest methods and equipment involved in exploring and managing the seabed whilst preparing for a career in this growth area.

Key features

-Graduate from a course that crosses different disciplines and is accredited by the Royal Institution of Chartered Surveyors (RICS) and the Chartered Institute of Civil Engineering Surveyors (CICES).
-Study with the ocean right on your doorstep in our waterfront city. Benefit from the practical research opportunities and links to international marine businesses this brings, as well as access to the University’s specialist Marine Institute.
-Study aboard the University’s own survey vessel the Falcon Spirit, and develop hands-on experience in current survey techniques and different methods of data collection and analysis.
-Prepare yourself on a commercially focused programme that’s been developed in response to industry requirements and an expressed commercial need. Progress to a career in hydrographic research and development, port and offshore/ nearshore surveying or environmental support.
-Equip yourself with the latest knowledge relating to hydrography in the fields of marine geophysics, oceanography, land survey techniques, geodesy, bathymetric surveying, tides, acoustic theory and marine resource management. Learn to use equipment including GNSS, SBES, MBES, ADCP and sidescan sonar.
-Engage in debates around the wider aspects of hydrography and the implications for data capture, data management, processing and information systems.
-Attend lectures and receive support from our specialist staff, as well as access to a series of industrial speakers and demonstrations of the latest technologies.
-Gain the knowledge and skills you need to design, develop and implement a final research project at postgraduate level.
-Benefit from our good relationship with industry – a number of companies visit each year. There is excellent recruitment from the programme to the marine sector with global opportunities and the potential to travel in conjunction with your employment.

Course details

Period 1 — an intensive 15 week programme of classroom learning and field activities prepare you for the technical aspects of surveying and the research required in master’s study. 70 per cent lectures/seminars and 30 per cent practical, either within the laboratory or afloat. Assessment is continual or by coursework.

Period 2 — includes specialisms in advanced studies with a combination of the digital mapping and survey project management modules, designed to prepare students for practical roles and management decisions when completing hydrographic tasks on behalf of future employers. Modules are selected based on industrial expectations and potential career requirements. 80 per cent lectures/seminars, 20 per cent practical. Assessment is 50/50 coursework and formal examination for core modules, continuous for the one optional module.

Period 3 — undertake a self-managed final dissertation, supervised by an assigned academic. May comprise a desk study, laboratory experimentation, field observations, data acquisitions and processing.

Core modules
-MAR513 Research Skills and Methods
-MAR520 Hydrography
-MAR521 Acoustic and Oceanographic Surveying
-MAR524 MSc Dissertation
-MAR522 Survey Project Management
-MAR523 Digital Mapping

Optional modules
-MAR517 Coastal Erosion and Protection
-MAR529 Marine Planning
-MAR530 Managing Marine Ecosystems
-MAR507 Economics of the Marine Environment
-MAR518 Remote Sensing and GIS

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
Although much progress has been made over the last three decades, still more than one billion people lack access to a safe, reliable and affordable water supply, and more than twice that number still lack access to basic sanitation. Read more
Although much progress has been made over the last three decades, still more than one billion people lack access to a safe, reliable and affordable water supply, and more than twice that number still lack access to basic sanitation. This course provides the essential skills and knowledge required to plan and implement, with communities, water supply and sanitation projects and programmes worldwide, particularly in less developed countries. Students benefit from dedicated state-of-the-art facilities, including soil and water laboratories, a hydraulics laboratory, a soil erosion research laboratory, a groundwater training facility, water quality laboratories and a field irrigation laboratory.

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LLM - 1 year full time, 2 years part time. Diploma - 7 months. Read more

Mode of study

LLM - 1 year full time, 2 years part time
Diploma - 7 months

Course details

Are you looking to gain a theoretical and practical introduction to the main legal issues arising from the globalisation of the world economy? This course focuses specifically on the interplay between international and national regulatory frameworks, through attention to macro-level regulation and micro-level ventures, contracts and transactions.

In the core module, you’ll explore recent significant restructuring of international institutions and the persistent erosion of the traditional boundaries dividing public and private international law. You’ll then choose a further five optional modules from an extensive selection of law modules and approved non-law modules.

Our programme examines both the wider issues of governance of the world economy and the specific legal issues arising from various types of international business transactions. You’ll gain a working knowledge of practical legal problems, but the course is equally suitable if you are seeking to embark on an academic career in Law.

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This master's programme focuses on the analysis of dynamic environments. past. present, and future. Concerns over human impacts on the environment have stimulated demand from governments and industry for the monitoring, analysis and modelling of natural processes in environmental systems. Read more
This master's programme focuses on the analysis of dynamic environments: past. present, and future. Concerns over human impacts on the environment have stimulated demand from governments and industry for the monitoring, analysis and modelling of natural processes in environmental systems. This is essential if we are to improve understanding of the interrelation of environmental variables in order to predict and manage their responses to anthropogenic perturbations.

You will gain:
-Advanced theoretical knowledge and practical expertise in order to collect, interpret and analyse contemporary and past environmental data.
-Modelling skills, in order to investigate the interrelationships between environmental variables, and to predict their responses to changing internal and external conditions.
-Intellectual and practical skills, in order to design and undertake field and/or laboratory experiments in contemporary environmental process-monitoring, or palaeoenvironmental reconstruction, and to design and test appropriate environmental models with the data you collect.

These skills are highly relevant if you wish to pursue a career in environmental management, or consultancy, and provide a firm grounding for research in the environmental sciences. Dr Jason Dortch directs the course, with input from other physical geographers working on a wide variety of aspects of environmental change. Current research includes:
-Measurements and predictions of climate change
-Glaciers and ice sheets (past and present)
-Biogeography
-Palaeoecology
-Environmental pollution
-Upland geomorphology (low relief, e.g. British uplands, and high relief, e.g. Himalayas)
-Remote sensing for environmental management
-Moorland erosion control
-Hydrology
-Water resource management
-Fire management
-Tectonic geomorphology

We also use the proximity of Manchester to the upland areas of the Peak District; several past MSc students completed dissertation work in close collaboration with various organisations responsible for land management in the Peak District, giving their work direct policy relevance.

Aims

Teaching focuses on training in theory, concepts and research skills in the first semester, and practical applications and research experience in the second semester.

We teach course units in small-group interactive styles with a mix of lectures, tutorials, seminars, practicals and presentations. A range of physical geographers provide training in their specialised fields, covering both content and practical research methods.
In a typical week, expect to spend some time in the library, preparing for seminars; in the laboratory, completing practicals; in the dedicated postgraduate computer laboratory, or writing reports; and in the classroom.

The second semester in particular gives you increased opportunities to go out into the field, both for practicals and to gain research experience by doing field research with members of staff. We maintain an intensively monitored catchment on the moors near the Snake Pass in the Peak District and this is the focus of several practical exercises, as well as a source of data to support dissertation work.

Field and laboratory research are essential to your learning process in environmental monitoring, and these form integrated parts of both the taught units and dissertation work.

Career opportunities

In the second semester, various speakers from environmental employers visit the department to give a flavour of their work and advice on employment.

The MSc in Environmental Monitoring, Modelling and Reconstruction has an excellent track record in providing a springboard for students to go on to careers in environmental industries, consultancies and government agencies, or to further research for higher degrees.

Recent graduates have found employment in agencies like the UK Atomic Energy Authority, The Environment Agency, Natural England and a range of environmental consultancies. Others have moved on to undertake full-time research for a PhD.

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This course offers comprehensive and flexible postgraduate training in the established yet dynamic field of Quaternary science, with the academic emphasis being on the time-dependent processes affecting environmental change. Read more
This course offers comprehensive and flexible postgraduate training in the established yet dynamic field of Quaternary science, with the academic emphasis being on the time-dependent processes affecting environmental change.

By the end of the course you will have acquired and demonstrated specialist disciplinary knowledge and understanding of key issues pertaining to Quaternary science, in particular the core linking themes of high-resolution palaeoenvironmental records, high-precision dating, and multi-proxy approaches to the investigation of past environmental changes.

You will also be provided with advanced training in techniques used to assess the causes, scale and rapidity of past climate and environmental fluctuations; encompassing field, laboratory, statistical and computing methods used in the acquisition, interpretation and modelling of proxy climatic and environmental data.

See the website https://www.royalholloway.ac.uk/geography/coursefinder/mscquaternaryscience.aspx

Why choose this course?

- The staff and facilities of the Centre for Quaternary Research (CQR) at Royal Holloway, University of London (RHUL) provide a wide range of opportunities for postgraduate training and research including participation in internationally significant research programmes in Quaternary science and links with potential employers.

- This consortium of staff constitutes the strongest teaching team in the UK for the provision of Masters' teaching in the field of non-marine Quaternary earth science and environmental change.

- The Department is one of the leading centres for international geographical research in the UK. In the 2014 Research Excellence Framework our research environment was recognized as overwhelmingly world class. The Natural Environment Research Council (NERC) recognizes this course as "Excellent".

- You will be provided with the temporal perspective necessary for the understanding of many contemporary environmental issues, such as climate change, biological responses to environmental change and soil erosion.

- The distinctive aspects of the research at the CQR are the emphases on high-precision dating, multiproxy palaeoenvironmental reconstruction, quantitative palaeoclimate estimates, high resolution stratigraphy/sedimentology and the influence of Quaternary climate change on early human evolution and dispersal.

Department research and industry highlights

The CQR was established in 1990 and has grown to become one of the leading international research centres in Quaternary science.

Since its inception the CQR has attracted funding from an increasingly diverse range of sources (NERC, AHRC, ESRC, Leverhulme Trust, EC Framework Programs, British Academy). Major research partnerships and initiatives have been forged (e.g. with the Natural History Museum, Museum of London, British Geological Society, English Heritage and Oxford University), which are fostering important advances in understanding Quaternary landscape evolution, quantitative palaeoclimate reconstruction, geochronology, biostratigraphy and Palaeolithic and environmental archaeology. The CQR has also benefited from recent £1.5M SRIF investment in laboratory refurbishment that has enhanced the centre’s research capabilities in OSL dating, tephrochronology, analytical chemistry and soil micromorphology.

On completion of the course graduates will have:

acquired and demonstrated specialist disciplinary knowledge and understanding of key issues pertaining to Quaternary Science, in particular the core linking themes of:
- high-resolution palaeoenvironmental records
- high-precision dating
- multi-proxy approaches to the investigation of past environmental changes.

Assessment

Assessment is carried out by a variety of methods including coursework, practical exercises, field reports and a dissertation.

Employability & career opportunities

Destinations of our graduates include the British Geological Survey, Natural England, the Environment Agency, journal publishing houses, Research Councils, environmental archaeology and museums, as well as academic positions within universities. This course also equips you with a solid foundation for continued PhD studies; around 70% of Quaternary Science graduates over the last decade have gone on to a PhD.

How to apply

Applications for entry to all our full-time postgraduate degrees can be made online https://www.royalholloway.ac.uk/studyhere/postgraduate/applying/howtoapply.aspx .

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The taught M.Sc. degree in Environmental Sciences, as the first of its kind in Ireland, has an established pedigree, attracting students with diverse academic backgrounds from Ireland and abroad. Read more
The taught M.Sc. degree in Environmental Sciences, as the first of its kind in Ireland, has an established pedigree, attracting students with diverse academic backgrounds from Ireland and abroad. This full-time, intensive course is intended for administrative and scientific workers and new graduates with an appropriate biological/earth science background. It comprises a series of taught modules encompassing a variety of current environmental themes, followed by a five-month, research project. There is also the possibility to opt for a diploma course in Environmental Sciences, consisting of the taught modules only.

The course provides students with a wide range of knowledge and skills relating to the expanding subject of Environmental Science. It aims to provide a firm scientific understanding of current environmental issues that will be of relevance to those interested in environmental management and related areas. The course provides a foundation of understanding of current environmental policies and legislation, and builds upon this with practical and theoretical courses that include subjects such as ocean and coastal management, water resources and pollution, climate change and environmental impact assessment. Theory and practice are closely linked to develop field, analytical, and presentation skills, including dedicated modules relating to data analysis and Geographic Information Systems. The course provides the opportunity to develop interests in particular areas of Environmental Science through tutorials, seminars and an extended desk study.

Following successful completion of the taught part of the course, students embark on a closely supervised research project intended to expand the skills and knowledge base acquired in earlier modules. Previous research projects have covered a diverse range of subjects including: groundwater contamination; atmospheric heavy metal deposition; environmental education; sewage processing systems; bio-indicators of marine pollution; and the impacts of erosion in African lakes.

Previous graduates of this M.Sc. course have been employed by a range of agencies involved in environmental protection, as environmental consultants and in local government. Many graduates have gone on to do further research in a range of environmentally related disciplines. Graduates from the course have pursued their interests in environmental sciences throughout the world.

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This programme offers a broad range of advanced subjects across the mechanical engineering disciplines. It’s aimed at graduate engineers who wish to pursue a career in industry using advanced engineering techniques, or those who want to gain in-depth knowledge for a career in research in industry or academia. Read more

This programme offers a broad range of advanced subjects across the mechanical engineering disciplines. It’s aimed at graduate engineers who wish to pursue a career in industry using advanced engineering techniques, or those who want to gain in-depth knowledge for a career in research in industry or academia.

We emphasise the application of computational methods and packages in mechanical engineering analysis design and manufacture to solve complex engineering problems, but you’ll choose from a wide variety of options that allow you to tailor your studies to suit your own interests or career ambitions. You could gain specialist knowledge in mechatronics and robotics, automotive engineering, tribology, aerospace engineering and many more.

You’ll be taught in world-class facilities by researchers who are making breakthroughs in their fields. It’s an excellent opportunity to gain a wide range of knowledge and skills that will prepare you for an exciting and challenging career.

Specialist facilities

We have an impressive range of world-class facilities to support your studies. In addition to our advanced CAD facilities for design work, we have the latest industry-standard software for computational fluid dynamics and finite element modelling of material stress analysis.

There’s also a well-equipped workshop with CNC machinery, 3D printing facilities and wire EDM for building parts and extensive lab facilities for solid and fluid dynamics, erosion, corrosion, tribology, combustion, control and dynamics, robotics and optical measurement.

Accreditation

This course is accredited by the Institute of Mechanical Engineers (IMechE) under licence from the UK regulator, the Engineering Council

Course content

In Semester 1 you’ll take a core module that introduces you to the fundamentals of computational and experimental methods, laying the groundwork for the rest of your studies. Beyond this, you’ll be able to choose modules in areas that suit your interests and career aspirations such as Combustion in Engines, fluid dynamics analysis, biomaterials or aspects of automotive and aerospace engineering.

Throughout the programme you’ll complete your Professional Project – an independent piece of research on a topic within mechanical engineering that allows you to demonstrate your knowledge and skills. In the two taught semesters you’ll review the literature around your topic and plan the project, before completing the design, analysis, computation, experimentation and writing up in the summer months.

If you choose to study part-time, you’ll extend your studies over a longer period so you can take fewer modules in each year.

Want to find out more about your modules?

Take a look at the Advanced Mechanical Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Engineering Computational Methods 15 credits
  • Professional Project 75 credits

Optional modules

  • Finite Element Methods of Analysis 20 credits
  • Mechatronics and Robotics Applications 15 credits
  • Automotive Chassis Engineering 15 credits
  • Automotive Driveline Engineering 15 credits
  • Energy Systems, Policy and Economics for Engineers 15 credits
  • Surface Engineering 15 credits
  • Biomaterials (Short Course) 15 credits
  • Functional Joint Replacement Technology (Short Course) 15 credits
  • Introduction to Tribology 15 credits
  • Aerospace Structures 15 credits
  • Rotary Wing Aircraft 15 credits
  • Vehicle and Product Systems Design 15 credits
  • Computational Fluid Dynamics Analysis 15 credits

For more information on typical modules, read Advanced Mechanical Engineering MSc(Eng) Full Time in the course catalogue

For more information on typical modules, read Advanced Mechanical Engineering MSc(Eng) Part Time in the course catalogue

Learning and teaching

Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings.

Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.

Assessment

You’ll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.

Career opportunities

After graduating from this course, you will be in a good position to seek employment with many leading organisations such as Airbus, Bentley Motors, Bombardier Transportation, Crompton Technology Group, Cummins UK, DePuy International, EAS Engineering, E-ON UK, Faraday Packaging Partnership, Ford Motor Company, Jaguar Land Rover, Nissan Motor Company, Prodrive, Ricardo UK and Siemens.

Careers support

You’ll have access to the wide range of engineering andcomputing careers resources held by our Employability team in our dedicated Employability Suite. You’ll have the chance to attend industry presentations book appointments with qualified careers consultants and take part in employability workshops. Our annual Engineering and Computing Careers Fairs provide further opportunities to explore your career options with some of the UK’s leading employers.

The University's Careers Centre also provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



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The two-year Master International Land and Water Management programme focuses on the scientific analysis of land and water management issues at various scales. Read more

MSc International Land and Water Management

The two-year Master International Land and Water Management programme focuses on the scientific analysis of land and water management issues at various scales. An integration of physical, technical, socio-economic and political dimensions in various approaches is sought in order to critically analyse, understand and tackle land and water management problems.

Programme summary

The MSc International Land and Water Management focuses on the scientific analysis of the physical, environmental, technical and socio-economic aspects of land and water management and their mutual interactions. Students develop comparative insights into the development of land and water management, take a scientific approach to various research paradigms and acquire a problemoriented, interdisciplinary attitude towards land and water management and rural development issues. Graduates will not only be able to study these issues, but also design and propose sustainable solutions to land and water management problems.

Specialisations

Sustainable Land Management
This specialisation deals with the processes, drivers and consequences of land degradation; as well as with interventions and conservation practices for sustainable land management. By providing in-depth knowledge and developing skills in physical and socio-economic aspects, this specialisation prepares students for both research and development jobs. Topics covered range from erosion processes and modelling to impact assessment and strategies, from field scale to watershed and beyond.

Irrigation and Water Management
Students in this specialisation obtain extensive knowledge on water usage in agriculture. Irrigation -from the farm level to the watershed level- is the main focus. Topics include irrigation of agricultural land, design of irrigation systems, water justice, distribution issues, equity and gender discussion, improving the social and technical performance of existing farm irrigation systems and practices, and irrigation in its wider water management context.

Adaptive Water Management
Increasing human induced pressures on water cycles together with growing demands on water resources ask for careful management of water systems. Students in this specialisation acquire the knowledge, skills and capacity to analyse future- oriented issues in water management and to propose and critically assess management strategies and innovations.

Your future career

Graduates find jobs in a wide range of fields including design and implementation, policy making, project management and research and education. Many find a PhD position at universities worldwide. They are employed by international organisations such as the Food and Agricultural Organisation of the UN (FAO), the International Water Management Institute (IWMI), or NGOs involved in international or national development. Some graduates also work for ministries, water boards and other governmental organisations in the field of international cooperation, such as the Dutch DGIS and the German GIZ, while others find jobs in private or public institutes in their home countries. For graduates interested in design and implementation, there are also job opportunities at international consultancies. In the Netherlands this includes firms such as Arcadis, Grontmij, Antea Group, Euroconsult Mott MacDonald and Royal Haskoning DHV.

Alumna Cecilia Borgia.
"After completing my degree, I worked in Mauretania for the Instituto de Agricultura Sostenible (CSIC-IAS) promoting both crop diversification and evaluating the performance of irrigation systems in the Senegal Valley. This has also been the subject of my PhD at the University of Cordoba in Spain. Recently, I returned to Wageningen and joined the consultancy firm MetaMeta where I look at water-food-energy linkages and water governance in Yemen. Water access and management, as well as the interactions between local water governance and new forms of organisation, have been central aspects of my work."

Related programmes:
MSc Earth and Environment
MSc International Development Studies
MSc Development and Rural Innovation
MSc Geo-information Science
MSc Landscape Architecture and Planning
MSc Forest and Nature Conservation.

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This programme is jointly organized by the Katholieke Universiteit Leuven and the Vrije Universiteit Brussel. It is one of the International Course Programmes supported by the Flemish Interuniversity Council (VLIR-UOS). Read more

International Course Programme

This programme is jointly organized by the Katholieke Universiteit Leuven and the Vrije Universiteit Brussel. It is one of the International Course Programmes supported by the Flemish Interuniversity Council (VLIR-UOS).

The Master of Water Resources Engineering addresses water-related issues in developed and developing countries, with a focus on problems in the latter. The MSc programme provides multi-disciplinary and high-quality higher education in the field of water resources engineering.

Water Resources Engineering deals with the methods and techniques applied in the study of:
- water needs for agriculture, industry, households, recreation, navigation, hydroelectric power generation;
- problems related to storm water drainage and flood damage mitigation;
- problems related to water quality in streams and aquifers, erosion, sedimentation, protection of ecosystems and other natural resources;
- integrated water management; and
- institutional, socio-economic, and policy issues related to water resources development and management.

This is an initial Master's programme and can be followed on a full-time or part-time basis.

Curriculum

Details available on http://www.iupware.be/

The Interuniversity Programme in Water Resources Engineering offers a two year Master of Water Resources Engineering course, which is intended for graduates (or equivalent) in engineering, agriculture, hydrology and other related subjects. The main goal is to offer comprehensive training in water resources engineering to engineers and scientists from developing as well as industrialized countries. The programme blends various basic and applied courses, hydrology and engineering sciences associated with water resources development with appropriate organizational and managerial skills. The course is specially tailored for those who want to develop their knowledge and understanding of water resources engineering, and are or expect to be involved in the design, operation or day-to-day management of water resources schemes in developing countries or anywhere in the world.

The first year curriculum is common for all participants while in the second year, a common base with optional courses. After successful completion of the 2-year study programme, a Master of Water Resources Engineering degree is offered.

In the 1st year of the study programme a review of the basic knowledge is proposed, in order to achieve a common base level between students with different backgrounds. The 1st year is primarily organized at the K.U.Leuven. This programme consists of a number of courses (Advanced mathematics for water engineering, Statistics for water engineering, Irrigation agronomy, Aquatic ecology, Hydraulics, Surface Hydrology, Groundwater Hydrology and Water quality assessment, monitoring and treatment) and 4 workshops: (1) Hydrological data processing; (2) GIS; (3) Hydrological measurements and (4) Remote sensing.

In the the 2nd year of the Master programme, a broad spectrum of topics is given to ensure the coverage of the main aspects related to water resources engineering. The topics in the second year are intended to broaden the water resources engineering knowledge and to provide a deeper understanding in either Hydrology, Irrigation, Water Quality or Aquatic Ecology depending on the area of specialization. The 2nd year is primarily organized at the V.U.B. The courses in the programme make extensive use of modelling tools relevant to various aspects of the design, operation and management of water resources development projects.

Admission requirements

Candidates must hold a Bachelor's degree from a four-stage programme in agricultural, civil or environmental engineering. Study results should reflect the equivalent of a 70% pass rating in Flanders. Students should have a proven proficiency in English. Applicants from non-English-speaking countries should have a TOEFL score of at least 550 on the written test and 213 on the computer-based test or equivalent results on similar language test.

Students from a 5-stage engineering or equivalent degree, including the prerequisites to the second stage courses, can be exempted from 60 ECTS. Applications are evaluated on an individual basis.

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