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Masters Degrees (Vessel)

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The Marine Engineering MSc is concerned with the design, analysis and operation of machinery and systems for merchant and naval ships and submarines. Read more
The Marine Engineering MSc is concerned with the design, analysis and operation of machinery and systems for merchant and naval ships and submarines. The programme covers a wide range of engineering subjects relevant to the development and procurement of marine engineering, and the programme features two parallel mechanical and electrical streams.

Degree information

The programme comprises study in analysis and design of propulsive systems and auxiliary equipment for the latest compliant marine vessel designs as well as the use of computers in advanced engineering analysis. Students develop an understanding of elements of engineering, alongside the skills necessary to apply their knowledge in a systematic and effective manner in a group ship design exercise and an individual project.

Students undertake modules to the value of 180 credits. The programme offers two parallel streams, mechanical and electrical.

The programme consists of four core modules (60 credits), two options (30 credits) a ship design exercise (45 credits) and an independent project (45 credits).

Core modules
-Advanced Computer Applications in Engineering
-Applied Thermodynamics and Turbomachinery
-Power Transmission and Auxiliary Machinery Systems
-Vibrations, Acoustics and Control

Optional modules
Either:
-Heat Transfer and Heat Systems (Mechanical Stream)
-Materials and Fatigue (Mechanical Stream)
OR
-Electrical Machines and Power Electronic Systems (Electrical Stream)
-Electrical Power Systems & Electrical Propulsion (Electrical Stream)

Dissertation/report
All students complete a ship design exercise, working on the design of a specific vessel, and undertake an independent research project which is either analytical or design, build and test in nature.

Teaching and learning
This dynamic programme is delivered through a combination of lectures, seminars, tutorials, coursework exercises and case studies. The taught courses are assessed through formal examination and coursework, the ship design exercise is assessed through a report and oral presentations, and the individual project is assessed through a report and presentation. Visits to the marine industry are also offered.

Careers

The Marine Engineering MSc has been accredited by the Institute of Marine Engineering, Science & Technology (IMarEST) and Institute of Engineering and Technology (IET) as meeting the further learning requirements, in full, for registration as a Chartered Engineer for a period of five years, from the 2012 student cohort intake onwards.There is currently a global shortage of well-qualified marine engineers and consequently the job prospects are good.

Top career destinations for this degree:
-PhD Marine Engineering, University College London (UCL)
-Lieutenant, Koninklijke Marine (Royal Netherlands Navy)
-Marine Engineer, Ministry of Defence (MoD)
-Propulsion and Gas Turbine Systems Manager, Government of Canada
-Safety Engineer, Ministry of Defence (MoD)

Employability
Delivered by leading researchers and academics from across UCL, students will have plenty of opportunities to network and keep abreast of emerging ideas. Collaborating with companies and bodies such as the Ministry of Defence and industry leaders such as BAE Systems and Rolls Royce is key to our success and we will encourage students to develop networks through the programme itself and through the department’s careers programme, which includes employer-led events and individual coaching. We are unique in having a close relationship with the UK MoD as well Commercial Shipping companies and students benefit through industrial lectures, ship design projects and individual projects. We equip our graduates with the skills and confidence needed to play a creative and leading role in the professional and research community.

Why study this degree at UCL?

Despite being part of a central city campus university, UCL Mechanical Engineering has excellent laboratories, including engine labs and a wave tank.

This MSc has been selected by the UK Ministry of Defence (MoD), Royal Navy, Canadian and other navies for the advanced training of their marine engineers. It also receives students from many other major maritime nations. Run in parallel with the Naval Architecture MSc, students from both programmes work together on a comprehensive and unique ship design exercise.

The department has an international reputation for excellence and is funded by numerous bodies including the Royal Society, the Leverhulme Trust, UK MoD, BAE Systems, US Naval Research (ONR).

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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.

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Our Technology in the Marine Environment MRes provides research training, supervision and collaboration to international standards in the topics covered by the marine technology research groups. Read more
Our Technology in the Marine Environment MRes provides research training, supervision and collaboration to international standards in the topics covered by the marine technology research groups.

The MRes breaks down into approximately 40% taught modules and 60% research in collaboration with an industrial partner.

Your research project will normally be in one of the areas addressed by the marine technology research groups:
-Marine Hydrodynamics and Structures
-Marine Design, Production and Operations
-Sustainable Maritime Engineering
-New Energy Infrastructure

Depending on your previous academic training and the requirements of the project, you may receive formal instruction through taught modules in important areas.

The substantial marine technology research community, including 50 research students, 140 MSc students, six-10 post-doctoral students, six technicians and 16 full-time academic staff, provides you with opportunities to progress your career, whether in industry or academia.

Our annual Postgraduate Research Conference provides you with an opportunity to share research experience and practise vital presentation skills.

We hold joint meetings of the Royal Institution of Naval Architects (RINA) and the Institute of Marine Engineering, Science and Technology (IMarEST). You are invited to join these meetings as they offer vital insight into the workings of professional bodies.

Our research students have been very successful at finding employment across a wide range of sectors. Professional institutes hold Newcastle research degrees in high regard when assessing work applications.

Accreditation

Our course is accredited by the Royal Institution of Naval Architects (RINA) and the Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council. This means that you are automatically recognised as satisfying the educational requirements leading to Chartered Engineer (CEng) status.

The Royal Institution of Naval Architects is an internationally renowned professional institution whose members are involved at all levels in the design, construction, maintenance and operation of marine vessels and structures. Members of RINA are widely represented in industry, universities and colleges, and maritime organisations in over 90 countries.

IMarEST is the first Institute to bring together marine engineers, scientists and technologists into one international multi-disciplinary professional body.

Our accreditations give you an additional benchmark of quality to your degree, making you more attractive to graduate employers. It can also open the door to higher-level jobs, most of which require Chartered Engineer status.

Placements

Leading industrial organisations in the Marine and Renewables sector sponsor many research projects. Other projects involve collaboration between Newcastle and other institutions.

Recent partnerships and collaborations include International Paint, Lloyds Register and BAE Systems.

Facilities

You have access to a wealth of excellent facilities within the School of Marine Science and Technology, including extensive laboratories such as the:
-Hydrodynamics laboratory
-Emerson Cavitation Tunnel
-Princess Royal, a versatile twin-hulled locally designed and built vessel supported by a dedicated shore station at Blyth Harbour

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Marine transport moves billions of tonnes of cargo around the world each year. It is one of the most international and critical sectors in the global economy. Read more
Marine transport moves billions of tonnes of cargo around the world each year. It is one of the most international and critical sectors in the global economy. As a graduate of our course you can work internationally in this diverse industry.

As well as shipping companies and ports, potential employers include:
-Logistics service providers
-Customs authorities
-Financial services providers
-Regulators
-Handling agents
-Brokers
-Insurance companies
-Ship builders

Our teaching is by lectures, seminars and personal supervision. It is delivered by leading staff based at the University, visiting professors and industrial experts. You will also benefit from industry site visits.

You choose from a variety of marine transport related topics for your dissertation using the research strengths of the School of Marine Science and Technology.

If you don't have a marine background, we recommended that you read one of these books in advance of arriving in Newcastle:

Reeds Sea Transport, Operations and Economics, 6th Edition, Patrick M Alderton, Adlard Coles Nautical, London, 2011
Elements of shipping, 8th Edition, Alan E. Branch, Routledge, London, 2007

Delivery

Seven taught modules worth 100 credits are delivered through semesters one and/or two. A dissertation or research project, worth 80 credits, is undertaken across the three semesters.

Facilities

You have access to dedicated facilities including:
-A student common room
-A computer laboratory

You benefit from a trip on the School's research vessel RV, The Princess Royal in order to experience marine operations in practice. There is also a strong programme of visiting lecturers from industry and site visits.

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In just a brief duration of time - in a few minutes or even in a fraction of a second - a fire or an explosion can have catastrophic consequences in residential buildings or in industrial plant. Read more

In just a brief duration of time - in a few minutes or even in a fraction of a second - a fire or an explosion can have catastrophic consequences in residential buildings or in industrial plant. In UK alone, hundreds get killed and tens of thousands are injured every year. Some single incidents cost millions of pounds, the total monetary cost of fire and explosions in the UK is estimated at £12 billion per year or approximately 1% of GDP.This course offers students from diverse academic backgrounds advanced training in the field of Fire and Explosion Engineering for those wishing to embark on a career, or further develop their career, in the industry. Particular emphasis is placed on fire and explosion protection systems within a legislative framework that is complex and fast-changing.Core modules will cover both foundation and advanced aspects of fire and explosion engineering, from the factors that influence flame spread to the latest research in explosion prediction. You’ll also gain a firm grounding in fire safety design and have the chance to design a fire protection system for a complex building.

Specialist facilities

  • An Enclosed Fire Rig Test facility
  • The Cone Calorimeter (standard and modified with controlled ventilation)
  • A 1m³ indicative standard fire furnace (planned for 2017)
  • Purser furnace
  • The Limiting Oxygen Index apparatus
  • The standard ISO vessel for dust explosions (in storage until at least 2017)
  • TGA (trace gas analyzer) and GC (gas chromatography) analytical equipment (off-line).
  • The on-line FTIR (Fourier transform infrared) toxic product analysis.
  • Mass spectrometer (MS).
  • Particulate emissions measurements (including particle size)
  • Access to the world class Leeds Electron Microscopy and Spectroscopy Centre (LEMAS), within the School, and high speed photography for visualisation of fast processes and optical analysis of particles before and after reaction.

Some of the modules on this programme are offered as short courses by the Faculty of Engineering’s Continuing Professional Development unit.

Find out more about our Fire Engineering short courses

This programme is also available to study part-time over 36 months.

Course content

You’ll study core modules that allow you to understand issues such as flame spread and steady burning, as well as developing your knowledge of fire protection designs for complex buildings. You’ll also review research around explosions, how they can be predicted and mitigated.

A major part of the MSc are two projects that will give you valuable experience and skills.

The first project involves the design of a protection system, so you’ll learn about the application of techniques such as sprinklers, pressurisation, smoke venting, automatic fire detectors, means of escape and emergency lighting systems.

The other is a lab or computational based project taking into account your own preferences. You can choose from the list of topics we offer each year, but most part-time students choose to put forward their own topic which may be related to the interests of the employer or sponsor. If you take this course part-time with the support of your employer, you can undertake your projects in the workplace.

Both projects are assessed on the basis of a written dissertation and an oral presentation.

If you choose to study part-time, you’ll need to visit Leeds six or seven times over three years. You’ll attend two presentation days and either four or five teaching weeks, depending on whether you choose the e-learning module Fire Risk Assessment and Management.

Course features include:

  • Extensive participation in course delivery by lecturers from industry brings strong industrial involvement to the course
  • Most taught modules are delivered in intensive CPD one week format. Modules are spread evenly throughout the year
  • Extensive participation in course delivery by lecturers from industry brings strong industrial involvement to the training package
  • Projects can be undertaken in the workplace (part-time) or at the University (full time and part time)
  • Block module format allows both full-time and part-time students a choice of modules.

The taught modules are assessed by coursework and 'open book' tests; typically within a period of 6-10 weeks from start to finish.

Want to find out more about your modules?

Take a look at the Fire and Explosion module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Research Project (MSc) 60 credits
  • Fire Safety Design 45 credits
  • Fire Risk Assessment and Management 15 credits
  • Fire Dynamics and Modelling 15 credits
  • Fire and Explosion Investigation 15 credits
  • Explosion Prediction and Mitigation 30 credits

For more information on typical modules, read Fire and Explosion Engineering MSc Full Time in the course catalogue

For more information on typical modules, read Fire and Explosion Engineering MSc Part Time in the course catalogue

Learning and teaching

Each taught module is delivered in an intensive one-week block, allowing full and part-time students to study alongside each other. These teaching weeks will allow you to benefit from the expertise of our own academics – informed by their groundbreaking research – as well as a range of visiting lecturers from industry to gain an understanding of fire and explosion engineering in theory and practice.

Assessment

Taught modules are assessed by via coursework and ‘open book’ tests, typically within 6-10 weeks from start to finish.

Career opportunities

Challenging career opportunities for fire and explosion professionals are available in just about every type of business, industry and government operation.

They include fire and explosion consultancies, fire safety planning offices of local authorities, civil engineering and architectural companies, chemical/pharmaceutical companies, the oil and gas industries, fire and explosion protection equipment manufacturers, government bodies and departments, specialist research and testing labs and insurance companies.

Links with industry

Throughout the course you will have the opportunity to meet potential employers at the week-long taught courses.

The Fire programme at Leeds is actively supported and sponsored by, amongst others, the following companies/organisations:




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This 12 month taught postgraduate course introduces students with a first degree in the physical, mathematical or other numerate sciences to the subject of Physical Oceanography. Read more
This 12 month taught postgraduate course introduces students with a first degree in the physical, mathematical or other numerate sciences to the subject of Physical Oceanography. The course has run for over 40 years and is unique in the UK for the depth of physical oceanography training provided. As well as giving an overview of physical oceanography, the course enable students to study in detail those aspects of the subject for which they have particular interest.

The first two semesters of the course are taught, introducing the student to the physics of the ocean and its role in the climate system. Modules cover both oceanographic theory and its application, as well practical oceanography. The latter includes an introduction of state-of-the-art instrumentation, remote sensing, numerical modelling as well as practical experience working on small boats and the University's state-of-the-art research vessel, the Prince Madog. Student achievement in the course is evaluated by continuous assessment and module examinations.

During the second semester the student begins to focus on specific aspects of the subject, intially through an extensive literature review and then a research project. The research project, which forms a major component of the course, is selected in close consultation with the students to be of direct relevance to their intended future work. For overseas students, well founded projects based on investigations being undertaken in a home institute are encouraged.

Course Objectives
Provide a thorough training in the theory and application of physical oceanography.
Familiarize the student with modern oceanographic instrumentation and observational techniques.
Introduce state-of-the-art computational fluid dynamics, data analysis and fundamental modelling methods.
Provide the student with the practical experience and physical understanding necessary to address significant problems in the coastal ocean environment.fessional life.

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This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and examined by continuous assessment. Read more
This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and examined by continuous assessment. The course provides advanced training in marine biology with a strong emphasis on practical training.

The course provides training addressing the following major themes:

Marine Ecology Skills
Habitat Ecology / Coastal Survey
Marine Fisheries
Marine Vertebrates
Marine Invertebrates
Research Design & Planning
Research Project / Dissertation
The programme is achieved through a series of compulsory modules encompassing theory, practical, private study and practical research.

The School of Ocean Sciences at Bangor University has over 50 years experience of teaching at postgraduate level, and excellent teaching and research facilities for the study of the marine biology. Undergraduate teaching was graded excellent in the last Teaching Quality Assessment, and research was graded 4* in the Research Assessment Exercise. NERC has designated the School as a Centre of Excellence in Coastal Seas, Marine Biology and Biological Oceanography.

The MSc course in Marine Biology is one of a suite of 4 focused MSc courses in marine science run within the School. New students on this course are inducted to the University and School via an introductory course consisting of orientation through site tours, excursions and social events, and 5 weeks of quantifying biological variability, learning Information Technology, and practising presentation skills. Pre-sessional English language training courses are also available for overseas students.

The MSc course is managed by a course team comprising of the Course Director, Deputy Course Director and Postgraduate Course Administrator. The team report to the School Course Board, which in turn reports to the College of Natural Sciences. Each student has a personal tutor drawn from the teaching staff. The School has 30 academics teaching and researching across the marine science disciplines of Marine Biology (15), Biogeochemistry (2), Physical Oceanography (6) and Geological Oceanography (7) with a similar overall number of technical staff. Teaching on the MSc Marine Biology will be provided from 'in house' in the main, but additional teaching will be provided from the University's School of Biological Sciences and the National Museum of Wales.

The MSc course is housed in a fully serviced and dedicated postgraduate suite. The School is located on the shores of the Menai Strait which separates the Isle of Anglesey from the mainland. The Menai Strait is a proposed Statutory Marine Resource and EU Special Area of Conservation and there are unspoilt marine environments relatively close by.

The University's newly refurbished science library is located in nearby in Bangor. Specialist facilities in the School include temperate and tropical aquaria, satellite imaging processing and Geographical Information System computing, diving and field survey operations (including ROVs and sledges) and laboratories for benthic analysis, nutrition, microbiology, genetics, radiochemical analysis, stable isotopes, sediments and organic chemistry, scanning electron microscopy. An additional strength in our field teaching, is work at sea aboard the only ocean-going research vessel in the Higher Education sector (RV Prince Madog), which entered service in 2001.

MSc course students can benefit from the School's links with other institutions, especially for research project opportunities. Such links presently include the Virginia Institute of Marine Science, U.S.A., University of Mauritius, Catholic University Chile etc.

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Conserve our environment for future generations – work with industry and governments to reduce human impacts and provide solutions to environmental problems. Read more
Conserve our environment for future generations – work with industry and governments to reduce human impacts and provide solutions to environmental problems. MSc Environmental Consultancy will help launch your career, giving you the skills and knowledge required for a job in the environment sector. Maximise your career prospects by learning the latest techniques used in the management and assessment of environmental impact, and develop your practical skills with an eight week industry placement.

Key features

-Embark on an eight week work placement in the environmental sector which will give you an invaluable insight into the environmental business sector and, in many cases, has led to permanent positions being offered by employers. See the organisations we partner with to provide student placements.
-Work towards achieving chartered environmentalist status through your masters. The award has also received considerable support and recognition from employers and professional bodies such as the Institute of Environmental Management and Assessment (IEMA).
-Benefit from our expertise in areas including species and habitat restoration, evaluation of contaminated water and terrestrial environments, environmental law, geographical information systems, waste management and marine surveys.
-Take the opportunity to carry out your own environmental impact assessment, from data acquisition to production of a full environmental statement.
-Investigate through field work how environmental issues and constraints have been managed in the South West and further afield.
-Use the University’s high specification analytical equipment for environmental monitoring and the research vessel, Falcon Spirit, for marine sampling.
-Undertake a research-based project – you’ll be encouraged to develop a solution to a problem-based research question, working where possible in association with industry and your academic advisor.
-All modules are assessed 100 per cent by coursework, designed to reflect the outputs of the industry, readying you for what you are likely to be asked to do in your job.

Course details

Learn from our environmental management expertise in areas including ecological impact assessment, protected species and habitat survey, pollution prevention, evaluation of contaminated environments, water resource management, geographical information systems, waste minimisation and marine ecological survey. The programme consists of a 12 week and 7 week period of taught modules with an 8 week environmental sector work placement and 18 week dissertation period. Modules are assessed 100 per cent by coursework and designed to mirror professional practice. You’ll be provided with subject-specific knowledge and training in research methods. You’ll carry out an environmental impact assessment, from data acquisition to public inquiry, and develop your field survey skills over the equivalent of two weeks. Practising consultants give you an insight into opportunities within the environmental sector and you’ll hear how environmental management can help protect the environment and save money.

Core modules
-ENVS5004 Work Placement Project
-GEES515 Professional Practice in the Environmental Sector
-GEES517 Environmental Assessment
-GEES519 Environmental Knowledge: From Field to Stakeholder
-GEES520 MSc Dissertation

Optional modules
-MAR515 Management of Coastal Environments
-GEES505 Sustainable Management of Freshwater Ecosystems
-MATH500 Big Data and Social Network Visualization
-ENVS5003 Ecological Survey Evaluation and Mitigation
-ENVS5002 Investigation and Assessment of Contaminated Environments
-GEES506 Climate Change: Science and Policy
-CHM5002 Analytical Chemistry Principles
-MATH501 Modelling and Analytics for Data Science

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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Subsea engineering plays a vital role in the exploitation of oil and gas resources. The subsea engineering industry help to specify the curriculum so we meet their requirements. Read more

Subsea engineering plays a vital role in the exploitation of oil and gas resources. The subsea engineering industry help to specify the curriculum so we meet their requirements. The course is designed for you as an experienced or recently graduated engineer who wants to develop your subsea knowledge.

Your teaching modules operate in short 'intensive schools' with time after the module to complete the assignments, where applicable. They include:

-Input from industry experts

-Site visits

-Industry-based projects

-Teaching from other disciplines

Teaching consists of lectures, practical sessions, seminars and personal supervision covering a variety of topics in subsea engineering. The degree is taught using a mix of the academic staff from the School of Marine Science and Technology as well as visiting lecturers and experts from industry.

You will undertake a research project leading to a dissertation. This may be a critical review and/or computational or experimental project using the University's world leading testing facilities. The research project is supported by an academic supervisor and may be conducted with an industrial partner which, where appropriate, may be your employer.

Delivery

Ten taught modules worth 120 credits are delivered in blocks through semester one and/or two. A dissertation or research project, worth 60 credits, is undertaken across the three semesters.

Accreditation

Our course is accredited by the Royal Institution of Naval Architects (RINA) and the Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council. This means that you are automatically recognised as satisfying the educational requirements leading to Chartered Engineer (CEng) status.

The Royal Institution of Naval Architects is an internationally renowned professional institution whose members are involved at all levels in the design, construction, maintenance and operation of marine vessels and structures. Members of RINA are widely represented in industry, universities and colleges, and maritime organisations in over 90 countries.

IMarEST is the first Institute to bring together marine engineers, scientists and technologists into one international multi-disciplinary professional body.

Our accreditations give you an additional benchmark of quality to your degree, making you more attractive to graduate employers. It can also open the door to higher-level jobs, most of which require Chartered Engineer status.

Facilities

You have access to dedicated facilities including:

  • a student common room
  • a computer laboratory
  • the Henri Kummerman Marine Resource Centre

You also have access to a set of excellent testing facilities:



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

Key features

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

Course details

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

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

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

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

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The Molecular Modelling and Materials Science MRes programme provides training in the key area of the application of state-of-the-art computer modelling and experimental characterisation techniques to determine the structure, properties and functionalities of materials and complex molecules. Read more
The Molecular Modelling and Materials Science MRes programme provides training in the key area of the application of state-of-the-art computer modelling and experimental characterisation techniques to determine the structure, properties and functionalities of materials and complex molecules.

Degree information

The programme provides specific training in molecular modelling methods and structure determination and characterisation techniques applicable to the materials sciences, together with tuition in research methods and the use of literature sources. The taught modules cover both specialist scientific topics and general project management and professional skills training relevant to the industrial environment.

Students undertake modules to the value of 180 credits.

The programme consists of two core modules (45 credits), two optional modules (30 credits) and a research project (105 credits).

Core modules - students take both modules listed below (45 credits) and submit a research dissertation (105 credits).
-Simulation Methods in Materials Chemistry
-The Scientific Literature

Optional modules - students take 30 credits drawn from the following:
-Researcher Professional Development
-Mastering Entrepreneurship
-Transferable Skills for Scientists
-Numerical Methods

Dissertation/report
All students undertake an independent research project which culminates in a substantial dissertation of approximately 12,000 to 15,000 words, and an oral presentation.

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, practical classes and seminars. Assessment is through unseen examination, presentation, coursework and the research project.

Careers

This MRes provides the ideal foundation for employment in a range of industries or further doctoral research, with increasing career opportunities in sectors including sustainable energy, catalysis, nanotechnology, biomedical materials and pharmaceuticals.

Top career destinations for this degree:
-PhD Chemistry, The University of Oxford
-Engineer, Mohan Boiler and Fraser Vessel Inspection Institute
-PhD Nanomaterials, University College London (UCL)
-Phd Physics, University College London (UCL)
-PhD Chemistry, Technische Universität Berlin (Technical Universit

Employability
The training provided by this program will enable the student to enter into a wide range of fields. Students may continue in academia to complete a PhD or pursue teaching as a profession. Students with the skills obtained during this study are highly sought after by the industrial sector, including IT, sustainable energy, catalysis, nanotechnology, biomedical materials and pharmaceuticals. Students are very likely to be welcome in the financial sector.

Why study this degree at UCL?

UCL Chemistry's interests and research activities span the whole spectrum of chemistry from the development of new drugs to the prediction of the structure of new catalytic materials.

This programme was established by the Engineering and Physical Sciences Research Council in response to the needs of industry for highly qualified research leaders with industrial experience and it provides for significant collaboration between academic institutions and industry.

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The MSc Marine Biology aims to train graduates in multiple areas of marine biology and equip them with professional certificates in Sea Survival, Powerboat Handling, Marine Radio and First Aid as well as necessary field skills. Read more
The MSc Marine Biology aims to train graduates in multiple areas of marine biology and equip them with professional certificates in Sea Survival, Powerboat Handling, Marine Radio and First Aid as well as necessary field skills.

The areas of marine biology covered in this master’s course include fisheries and aquaculture, genetics, marine ecology and conservation, marine mammals and ecological aspects of Geographic Information System (GIS). In addition, the course has a significant field work component including ship work as well as survey and sampling techniques training. This course, run entirely by the School of Biological, Earth and Environmental Sciences at University College Cork, will provide an understanding of these various disciplines and skills needed in order to meet the growing demand for trained marine biologists at home and abroad.

Visit the website: http://www.ucc.ie/en/ckr38/

Course Details

On successful completion of this course, you will be able to:

- demonstrate a clear understanding and integration of knowledge of marine flora and fauna, the marine environment and its biological and physical properties and processes
- assess the sustainability of exploitation (fisheries and aquaculture) and assess the impact of other anthropogenic factors on the marine environment
- define the roles of management and conservation across the marine environment
- demonstrate a wide range of research skills (field and laboratory) including safety-related and professional qualifications
- apply the knowledge and skills acquired in this course in the working environment enabling the development of policy.

Format

This full-time 12-month course is split into Part I taught modules running from September to April and Part II, a four-month research project for students passing Part I. The course includes ship time experience aboard the Irish State research vessel, Celtic Voyager and field work day trips to various locations in County Cork as well as a week-long residential field course in the West of Scotland in March. In addition, students undertake professional certificate courses in January and February at the National Maritime College of Ireland in Ringaskiddy, Cork

Part I of the course consists of eight taught modules to the value of 60 credits involving lectures, practicals, seminars and fieldwork. Part II is a substantial research project (BL6017) to the value of 30 credits for those passing Part I. Each of the prescribed taught modules will be examined by a written paper and/or continuous assessment. Each student progressing to Part II of the course must submit the research project in an area of marine biology by a date as prescribed by the School of BEES.

Part I

BL6010 Characteristics of the Marine Environment (5 credits)
BL6012Marine Megafauna (10 credits)
BL6013Marine Fisheries and Aquaculture (10 credits)
BL6014Marine Fieldwork and Survey Techniques (10 credits)
BL6015Practical Marine Workplace Skills (5 credits)
BL6016Marine Ecology and Conservation (10 credits)
BL6019 Ecological Applications of Geographical Information Systems (5 credits)
BL6020 Genetics and the Marine Environment (5 credits)

Part II - Four-Month Research Project

BL6017Marine Biology Research Project (30 credits)

Assessment

The taught modules in the course are assessed by a combination of written examinations and continuous assessment elements (including essays, practical reports, critiques, seminars, dossiers and analytical elements). The four-month research project is assessed by a dissertation, project seminar and an assessment of your practical ability throughout the duration of the project.

Careers

As well as a number of professionally certified courses that will be provided throughout the course, students will also gain a variety of technical skills associated with research and computer skills (GIS in particular). Many transferable skills are also fostered through different learning approaches, including critical thinking, problem solving, report writing, oral presentations, statistical analysis, independent research and time management.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Biology. Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Biology: Conservation & Resource Management at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The MSc Environmental Biology: Conservation and Resource Management course focuses on the relationships between living organisms and the terrestrial, freshwater and marine environments, coupled with the interactions that result from natural and anthropogenic processes.

On the Environmental Biology: Conservation and Resource Management course you will benefit from advanced training in the interpretation of local and global environmental issues, field and theoretical aspects of biology and ecology, and in analytical techniques. You will also develop the skills necessary to work confidently in vocational areas such as conservation, environmental impact assessment, environmental management, monitoring and education, and foster an objective, scientific and realistic approach to environmental biological issues that you may have to face in a professional capacity.

Graduates from the Environmental Biology: Conservation and Resource Management course go on to work for government agencies such as CCW, Environment Agency, English Nature, Scottish Heritage, Fisheries Research Services, CEFAS. Other organisations include zoos, wildlife parks and reserves, national parks, environmental departments, research and development of SMEs as well as large companies. Graduates also go on to do postgraduate research.

Modules

Modules on the Environmental Biology: Conservation & Resource Management MSc include:

Core Science Skills and Research Methods

Conservation of Aquatic Resources

Term papers in Environmental Biology

Environmental Assessment and Management

Ecosystems

Remote sensing of the changing environment

Geographical Information Systems

Research Project

Please visit our website for a full description of modules for the Environmental Biology: Conservation & Resource Management programme.

Facilities

As a student on the MSc Environmental Biology: Conservation & Resource Management programme, you will benefit from a range of facilities such as:

Our excellent facilities include a unique built Animal Movement Visualisation Suite (£1.35m), incorporating an electronic wall linked to a computer-tesla cluster for high-speed processing and visualisation of complex accelerometry and magnetometry data derived from animals. Coupled with this facility is the Electronics Lab with capacity for research, development and realisation of animal tags with new capacities (sensors, energy-harvesting systems, miniaturization, 3-D printing of housings etc.); a custom-designed 18m on coastal research vessel; a recent investment of £4.2m on a new suite of state-of-the art Science laboratories; and the £2m unique Centre for Sustainable Aquatic Research (CSAR) with a 750 m2 controlled environment building, with programmable recirculating aquatic systems, unique within the UK’s higher-education sector. These are tailored for research on a diverse range of organisms, ranging from temperate to tropical and marine to freshwater. Coupled with this are nutrient and biochemical analytical capabilities.

Student profiles

“I’ve spent four years as a student at Swansea University, three years as an undergraduate studying Marine Biology and a year as a postgraduate undertaking the MSc in Environmental Biology: Conservation and Resource Management. Whether studying or partying I can honestly say I had a fantastic time the whole way through! It was through my undergraduate study that I realised how amazingly diverse the marine ecosystem is, but also how vulnerable it can be and the level of exploitation it endures. This prompted me to undertake the MSc, which furthered my knowledge in many aspects of conservation and environmental issues around the world on sea and land. With my experience and expertise gained from studying at Swansea I have secured a job working with WWF Cymru in Cardiff as Marine Policy Officer where I am helping work towards a sustainable future for the Welsh marine environment.”

David Parker

BSc Marine Biology

MSc Environmental Biology: Conservation & Resource Management

Marine Policy Officer, WWF Cymru, Cardiff

Research

We are 7th in the UK and top in Wales for research excellence (REF 2014)

93.8% of our research outputs were regarded as world-leading or internationally excellent and Swansea Biosciences had the highest percentage of publications judged ‘world-leading’ in the sector. This is a great achievement for the Department, for the College of Science and indeed for Swansea University.

All academic staff in Biosciences are active researchers and the department has a thriving research culture.



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The aim of this course is to provide a grounding in both practical and theoretical aspects of sea level science in the context of climate change. Read more
The aim of this course is to provide a grounding in both practical and theoretical aspects of sea level science in the context of climate change.

In the last few years it has become rapidly apparent that coastal flooding as a result of intense storms is forming one of the more immediate consequences of changes in storm severity and frequency consistent with what we would expect in a warming climate. Worldwide, governments, coastal planners and the insurance industry are realising that understanding sea level, both in terms of its gradual change and its response to extreme weather events, is vital if we are to try to reduce or mitigate the high human and financial costs of coastal flooding. This provides the practical, and urgent context for developing high-level training in sea level.

Within Liverpool we are well-placed to develop this training because of the co-location of the National Oceanography Centre (NOC) and the School of Environmental Sciences. NOC hosts and provides expertise for the Permanent Service for Mean Sea Level, the primary tide gauge data source for all studies of long-term sea level change. Scientists at the NOC are world leaders in the science of sea level, both in the context of global and regional sea level changes in response to a changing climate and in science of forecasting coastal flooding as a result of tide and storm interaction.

Why Oceanography?

Exceptional academic staff

Taught by staff from the School of Environmental Sciences and the National Oceanography Centre.

World centre

Liverpool is a world centre for oceanography and sea level science

High level computing and lab facilities

Access to high level computing and lab facilities, along with the University research vessel

Career prospects

Our degrees provide pathways into rewarding careers and our graduates have found employment in a wide range of industries and organisations, both in the UK and abroad. Graduates of the Environment and Climate Change MSc have gone on to continue their studies towards a PhD, or are employed in a wide range of positions, including environmental, energy and engineering consultancies, multinational companies (energy), local government, environmental bodies, research positions and teaching.

PhD graduates are now working in academic life as lecturers in Geography, Environmental Science, Economic History, Development Studies and Statistics at universities in the UK and overseas. Others are employed in applied fields, working in Europe, Africa and across the world, for example as professional statisticians (one is now Director of Statistics in Zambia, another working in the Health Service in the UK), development professionals (including a member of staff on the WHO malaria programme in East Africa), and scientists at climate and environmental research centres around the world.

The programme will provide training suitable for those seeking a career in the insurance and re-insurance industries, in coastal management, and in risk assessment/long-term planning for coastally-based organizations and governments. For those seeking to go on to further research in climate change and sea level, it will provide an unparalleled background, addressing many of the high priority requirements recently identified by NERC for doctoral training. Aspects of the course, such as research skills and data analysis of environmental records (including time series analysis) provide skills which are in demand across a wide range of scientific, engineering and financial fields.

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