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Masters Degrees (Smart Buildings)

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The. Master course in Smart Buildings and Sustainable Design. addresses the issue of sustainability in terms of design strategies that optimize environmental, energy and social behaviors of the urban environment. Read more

The Master course in Smart Buildings and Sustainable Design addresses the issue of sustainability in terms of design strategies that optimize environmental, energy and social behaviors of the urban environment. The course is aimed at embedding interactive and web connected technology with architecture, in order to become aware of what is going on in the surrounding environment and acquire the capability of virtuous reactions.

Sustainable design deals with the challenges and problems of post-industrial polluted cities by combining design and technical skills to outstanding theoretic, critical and cultural knowledge.

Methodology and structure - The course includes different teaching activities: theoric classes, seminars, design workshops, speeches, construction labs.

The first month will be dedicated at introducing students to the skills of the job, including 3d modeling, digital fabrication, Arduino technology and principles of environmental strategies. From the second month and through the next 11 months, students will work on a challenging thesis project that will be presented to a public audience at the end of the Master. During this phase, classes will stimulate students on the topics of Green Energies Design Strategies, Smart Technologies for the Built Environment, Design Rating Systems and Certifications, Big Data, Urban Sharing. All the input coming from these activities will be embedded in the students design work to develop a compelling thesis project.



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In the MEngSc Information Technology in Architecture, Engineering, and Construction (Bauinformatik) you will learn how to apply computer science technologies to sustainable design, facilities management, energy management, and construction management. Read more
In the MEngSc Information Technology in Architecture, Engineering, and Construction (Bauinformatik) you will learn how to apply computer science technologies to sustainable design, facilities management, energy management, and construction management.

The course is designed for professionals as well as young graduates from all computer science and engineering disciplines who want to improve their knowledge of customising information and communication technologies to support the design, commissioning and operation of civil engineering systems.

The course addresses the increasing need for engineers and architects with advanced knowledge and skills in the application of information and communication technologies to support sustainable design and operation of buildings and energy systems, facilities management, virtual construction, building information modelling (BIM) and structural engineering.

Lecturers are broadcast through the web, and can be attended either in UCC or from a remote location. Experts from six European universities contribute their knowledge to the course.

Visit the website: http://www.ucc.ie/en/ckr29/

Course Details

You will get hands-on experience in planning, customising, and maintaining state-of-the-art software systems for the needs of the AEC and FM sectors with an emphasis on complex engineering systems such as smart buildings. The course consists of four pillars:

- the acquisition of new knowledge and practical skills in selected engineering disciplines
- the acquisition of knowledge and skills in selected areas of computer science
- the application of the newly-acquired knowledge in two projects
- the development and submission of a minor research thesis.

In the first teaching period students acquire knowledge of:

- Smart Buildings, Facilities and Energy Management
- Software Engineering
- Knowledge Management or Computer Mediated Communication.
- Building Information Modelling (BIM), Data Warehousing, and E-business
- Virtual Construction, Automation in Construction or Finite Element Analysis (electives)

The two projects focus on:

- Software Engineering
- Information Technology for Energy Systems in Buildings.

The course is based on the principle of research-led teaching, ie. project work will be based on practical examples. Researchers and PhD students from UCC will be involved in mentoring and supervising assignments and projects. On completion of the course, you will be extremely attractive to employers who need engineering with a strong IT-background, working in the following areas:

- civil and energy-engineering consultancy
- facilities management
- energy service provision (ESCO)
- construction management
- building operations
- software engineering
- project management.

You will develop skills in:

- applying information modelling
- software engineering
- data processing
- data analysis techniques
- facilities and energy management
- structural analysis
- project and supply chain management in construction.

Format

The course can be taken on a full-time (one year) or part-time (two year) basis with an option to complete at postgraduate diploma level. Lectures are broadcast using web-technology and can be attended either in UCC, in your home, or at your workplace. The majority of lectures are scheduled outside normal working hours. Block seminars consisting of full-day events are available once a month during academic periods. The course requires the completion of two projects, but can be combined with a work placement. A minor thesis contribution begins when all taught modules are completed successfully and involves four months of research work.

Assessment

Modules focusing on the acquisition of new knowledge are assessed by written exams (60%), in combination with continuous assessment (assignments – 40%). Modules focusing on skills-development or knowledge transfer are assessed through the submission of reports or essays in combination with presentations. Projects are usually organised in groups. They are assessed through continuous assessment (team meetings, status review meetings) and a final report complemented by a final presentation. You must pass each module (40%) and achieve an average grade of 50% across all taught modules in order to be eligible to progress with the master’s thesis.

Careers

Recent publications report that a shortage of engineers has been identified by professional bodies across the European Union. In the UK and Germany alone, it is predicted that approximately 2,500 engineering positions need to be filled on an annual basis over the next five years (2012 to 2016). It is expected that employable candidates have an excellent background in how to efficiently exploit IT tools in order to execute engineering tasks in the most efficient but also in an interdisciplinary way. This course addresses the need for interdisciplinary expertise and skills in engineering, energy management and computer science.

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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As we head towards zero carbon buildings, we need to better understand how buildings should be constructed and the materials we should use in their construction in order to increase their energy efficiency. Read more
As we head towards zero carbon buildings, we need to better understand how buildings should be constructed and the materials we should use in their construction in order to increase their energy efficiency.

Whether you are working in the construction industry, a graduate from a built environment background or you want to upskill for a new construction role, we will teach you how to analyse the performance of existing buildings and to design and model new, energy efficient buildings.

You will gain an understanding of building physics and performance, including how buildings respond to weather, how to heat buildings efficiently and how bricks, mortar, timber and insulants act as a thermal barrier. Discover how to use 3D modelling packages to study individual building components and analyse how buildings respond to environmental conditions and occupancy patterns.

You can combine this course with other Advanced Professional Diplomas as part of our MSc Sustainable Engineering or study it as a standalone qualification.

Visit the website http://courses.leedsbeckett.ac.uk/buildingmodellingandsimulation_apd

Mature Applicants

Our University welcomes applications from mature applicants who demonstrate academic potential. We usually require some evidence of recent academic study, for example completion of an access course, however recent relevant work experience may also be considered. Please note that for some of our professional courses all applicants will need to meet the specified entry criteria and in these cases work experience cannot be considered in lieu.

If you wish to apply through this route you should refer to our University Recognition of Prior Learning policy that is available on our website (http://www.leedsbeckett.ac.uk/studenthub/recognition-of-prior-learning.htm).

Please note that all applicants to our University are required to meet our standard English language requirement of GCSE grade C or equivalent, variations to this will be listed on the individual course entry requirements.

Careers

Aimed at professionals working within the built environment or graduates looking to build on their knowledge of the built environment, we will help you further your employment prospects within the construction industry. With the ability to assess the performance of existing buildings and the specialist skills to design and model new buildings, you will be a valuable asset to any construction company.

- Building Surveyor
- Architectural Technician
- Mechanical Engineer

Careers advice:
The dedicated Jobs and Careers team offers expert advice and a host of resources to help you choose and gain employment. Whether you're in your first or final year, you can speak to members of staff from our Careers Office who can offer you advice from writing a CV to searching for jobs.

Visit the careers site - https://www.leedsbeckett.ac.uk/employability/jobs-careers-support.htm

Course Benefits

Study part time at your own pace around your job and learn the latest developments in building modelling and performance that will set you apart in the workplace.

When it comes to understanding the performance of buildings in the UK, the government and building industry alike turn to our University for expertise and advice. You will be learning from a teaching team and industry experts who have worked with the UK government and large material manufacturers including Saint-Gobain and ARC Building Solutions to enhance the performance and efficiency of buildings. You will hear the first-hand experiences of business leaders and sustainability experts involved in UK and international consultancy projects on building modelling and simulation.

Through our virtual learning environment you will have access to the latest information about building designs and research on how building stock can be made more energy efficient. Online materials including videos, up-to-date research on thermal performance, moisture propagation and building fabrics, and simulations considering weather conditions, occupancy and the impact of solar and ventilation will inform your learning.

Core Modules

Building Environmental Science & Modelling
Learn to assess building performance for occupant comfort, health, energy use and serviceable life. Discover how modelling of building fabrics and components is used to predict performance.

Building Detailed Design & Specification
Apply the principals learned in the Building Environment Science & Modelling module to the design of building details to maximise performance while avoiding problems.

Professor Chris Gorse

Professor of Construction and Project Management

"The future of our energy efficient homes, workplaces and smart cities is underpinned by the performance and reliability of the models we use. This course will advance your understanding and ability to apply the latest tools and techniques to the field"

Chris Gorse is Professor of Construction and Project Management and Director of Leeds Sustainability Institute. He leads projects in the areas of sustainability, low carbon and building performance and has an interest in domestic new builds, commercial buildings and refurbishment. Chris is an established author and has consultancy experience in construction management and law.

Facilities

- Northern Terrace
Based at our City Campus, only a short walk from Leeds city centre, Northern Terrace is home to our School of Built Environment & Engineering.

- Leeds Sustainability Institute
Our Leeds Sustainability Institute's facilities include the latest drone and thermal imaging technology to provide new ways of measuring and evaluating building sustainability.

- Library
Our Library is open 24/7, every day of the year. However you like to work, we have got you covered with group and silent study areas, extensive e-learning resources and PC suites.

Find out how to apply here - http://www.leedsbeckett.ac.uk/postgraduate/how-to-apply/

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Do you want to address the big challenges which face our world today - climate change, quality of life and the new economic reality? Gain the knowledge and skills needed to be at the leading edge of the building discipline and work towards the best products and processes in the industry by studying this course. Read more
Do you want to address the big challenges which face our world today - climate change, quality of life and the new economic reality? Gain the knowledge and skills needed to be at the leading edge of the building discipline and work towards the best products and processes in the industry by studying this course. On graduating you will be in a unique position to work on integrated design project teams, in building energy/facility management or continue towards postgraduate research.

Key features

-Join a course that aims to set new international standards in building performance. Move beyond the concepts of green buildings or sustainability - these are embedded in this programme, but we go the extra mile, giving you a more holistic view.
-Combine a solid grounding in core aspects of this subject area such as energy efficiency with a wider context that includes the economic, socio-cultural and historic dimensions.
-Help tackle some of the key challenges that face the building industry, such as the new economic reality, quality of life, climate change, and population growth.
-Gain expertise in the key enabling technologies of building performance simulation, building information modelling, and energy management.
-Get inspired through research-informed teaching. All staff contributing to this programme are part of a research group that runs projects funded by the Engineering and Physical Sciences Research Council (EPSRC), European Union, InnovateUK, Leverhulme Trust and others.
-Interact with various stakeholders in the building domain, including design and engineering companies, contractors, property developers, facility managers, and governmental organisations.
-Expand your network through special interest groups that focus both on industry as well as research.
-Become part of a vibrant multidisciplinary school. Part of this programme allows you to explore modules of our Masters in Architecture (MArch) programme.

Course details

The programme aims to provide you with an opportunity to develop your knowledge in quantifying building performance, and the application of the performance concept throughout the building life cycle. The regular duration is one year, full-time.

On successful completion of the programme you will have developed knowledge and understanding of building systems. You will be able to assess performance from different perspectives, such as environmental, socio-economic and cultural point of view. You will have the skills to use building performance simulation tools, carry out monitoring, and analyse complex data. You will have the skills to deal with the different stakeholders in building performance.

Core modules
-HPB701 Introduction to High Performance Buildings
-HPB702 Emerging Construction Technology
-HPB703 Smart and Intelligent Buildings
-HPB705 Performance Finance and Investment
-HPB706 Performative Architecture
-HPB707 High Performance Buildings Research Project
-HPB704 Advanced Building Performance Simulation

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The concept of the German “Energiewende” – literally, energy transition – has gained international attention. It includes a variety of measures that aim at making Europe’s largest economy free of fossil fuels and nuclear energy. Read more

Program Background

The concept of the German “Energiewende” – literally, energy transition – has gained international attention. It includes a variety of measures that aim at making Europe’s largest economy free of fossil fuels and nuclear energy. In order to attain this, all areas of energy production and consumption will have to go through a transition process. Besides mobility and industry, buildings are therefore one of the key factors for a successful Energiewende.

Most of all, this implies re-directing from a mainly fossil-fueled energy supply towards renewable energies and a much more energy-efficient use of energy in buildings and urban areas. This is one of the largest and most urgent challenges of current urban development and other social disciplines.

Finding solutions to such a complex challenge means that a multitude of actors from business, society, and public administration take part in the process and influence it with their differing and often conflicting interests. Resulting from this is the need for skilled workers who both understand all stakeholders and are able to work with them.

Building Sustainability

Strategic concepts for communication and cooperation in large-scale projects are crucial for their success. Whereas, “simply” building a house has become a manageable task, things become much more complicated when considering the urban environment and wider interests such as energy efficiency. The Master program, Building Sustainability focuses therefore, not only on technical and economic perspectives, but also aims at imparting relevant knowledge from other disciplines. This means that the scope of the program is both broad and specific at the same time. The combination of technology, management and sustainability-related topics is therefore a unique opportunity for young professionals to extend their skills.

The MBA program Building Sustainability – Management Methods for Energy Efficiency will teach students skills, methods and concepts to consider different approaches, to understand them and to align them for reaching sustainable solutions. Such competences are not only important in the context of the Energiewende but they are indispensable in every building, construction and real estate project that takes energy efficiency and other sustainability criteria into account.

The idea is that sustainable project results that consider economic, ecological and social aspects can only be achieved in extensive cooperation of all stakeholders. Managing and moderating such a cooperation is one of the major challenges of implementing sustainability in building projects of all scales. The program aims therefore on enabling students to understand the complexity of planning and management processes and to develop according solutions. This will happen in modules with different approaches: some will teach facts and numbers, others will facilitate connections between different fields and the softer skills of mediating between them and some are designed to apply these competences to practical projects.

The TU-Campus EUREF is located on the EUREF (European Energy Forum) campus in Berlin-Schöneberg. This former industrial area has been developed into a research hub for energy efficiency, renewable energies and smart grids. Students will gain insight into the numerous real-life examples of building sustainability without having to leave the campus.

Students and graduates

The program addresses a broad group of professionals with varying academic backgrounds, mostly in engineering and technology, management, economics, architecture and urban or environmental planning. However, applicants with other academic backgrounds coupled with working experience in a related field are also encouraged to apply, personal motivation plays an important role in the selection process. Class diversity is one of its greatest assets, as students will not only learn from lecturers with science and business backgrounds, but also from each other.
Graduates will be able to moderate and manage complex projects in the construction, real estate, and planning sector. They will be able to assess the project from technical, ecological and economic perspectives and find solutions which take all stakeholders into account.

Curriculum

The first semester focuses on the basis for successful and sustainable projects. Two comprehensive modules in the fields of building technology and project management will allow students to work on their first, closely guided group project. A lecture series about the sustainable reorganization of building and urban structures with special regard to energy management and the energy market accompanies these modules.

The second semester focuses on the interdisciplinary aspects of building sustainability. It addresses real estate economics and the issue of energy-efficient societies in a global context. Together with the knowledge and skills attained in the first semester, students will conduct a comprehensive and interdisciplinary group project. At the same time, specialization starts and students can choose between deepening their knowledge in either technology and innovation management or in Smart Buildings.

The specialization continues in the third semester, either by completing the technology and innovation module or the technical module with the follow-up course Integration of Renewable Energies. All students take a module in Life Cycle Analysis to complete the holistic approach of sustainability and write their Master thesis. Graduates will earn a degree awarded from the Technische Universität Berlin.

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This new postgraduate course* offers you the unique opportunity to join a cutting–edge MSc programme created in conjunction with industry and delivered… Read more
This new postgraduate course* offers you the unique opportunity to join a cutting–edge MSc programme created in conjunction with industry and delivered as a joint venture with the University of Liverpool, Liverpool John Moore’s University and Sensor City.*Please note that this MSc is still subject to University approval.Sensor technology has grown significantly in the last decade and has a huge impact on all areas of technology. It has become integrated within the manufacturing, healthcare and automotive industries, in addition to emerging sectors including smart buildings, smart grids and integrated energy systems.Global market for sensor systems is currently worth over $490 billion globallyThe sensor technology market is growing by over 10% each yearIn the last decade 1 in 3 global patents were sensor relatedSensor City is a bespoke new facility in the city of Liverpool, bringing together expertise from academia, industry and over 100 local companies. It is a vibrant community focused on research and enterprise expertise to create and develop new ideas in sensor technology and enterprise for commercial production http://www.sensorcity.co.ukThe sensor technologies industry requires more engineers worldwide with knowledge, expertise and entrepreneurial skills to develop innovative solutions for this fast-paced industry. This innovative new MSc will develop your relevant engineering expertise to understand, design and implement sensor systems across a range of industrial sectors. In addition, enterprise coaching will develop the understanding and knowledge for taking innovations from inception to market. During the MSc, you will:Develop an in-depth knowledge of sensor related technologies and their uses in the wide variety of industries including automotive, healthcare, transport, building and energy.Gain knowledge and skills in product design and service idea creation in relation to sensors, sensor systems and networks, communication and control technologies.Develop managerial methods and entrepreneurial skills in collaboration with industry partners.Learn the art of selling and the science of negotiation, for those interested in starting and running their own business or ‘selling in’ a new idea or concept to existing companies. You will undertake a range of theoretical and practical elements including traditional lectures, hands-on laboratories, seminars, workshops and engagement with industry. You will also have the opportunity to work on a significant project, in conjunction with industry, bringing together the themes of sensor technology and enterprise through the process of innovative research and development. The unique features of this programme enable you to qualify with a master's qualification as well as having developed a concept that can be taken forward post-graduation, enabling you to continue working with industry, start your own business or start commercial production. The programme runs from September and is set over a period of two years to enable sufficient time for knowledge and idea development.

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This leading-edge programme, established before many in the built environment field were aware of greenhouse gases, has produced a stream of high-achieving graduates sought after by the biggest names in building design and the construction industry. Read more

This leading-edge programme, established before many in the built environment field were aware of greenhouse gases, has produced a stream of high-achieving graduates sought after by the biggest names in building design and the construction industry. We attract students from across the globe eager to find positions worldwide or to take relevant, cutting-edge thinking about sustainable building design back to their own part of the world.

About this degree

The programme aims to develop students' knowledge and expertise in problem solving in the area of the built environment, and provide a framework for developing innovative thinking in the design and operation of buildings, placing associated environmental issues in a global, national and personal context.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (90 credits), two optional modules (30 credits) and a built environment dissertation (60 credits).

A Postgraduate Diploma (120 credits, full-time nine months) is offered.

Core modules

  • The Built Environment: The Energy Context
  • Health, Comfort and Wellbeing in Buildings
  • Building Solar Design
  • Natural and Mechanical Ventilation of Buildings
  • Efficient Building Service Systems
  • Methods of Environmental Analysis

Optional modules

  • Advanced Building Simulation
  • Low Energy Housing Retrofit
  • Post Occupancy Evaluation of Buildings
  • Multi-objective Design Optimisation
  • Introduction to System Dynamics Modelling
  • Indoor Air Quality in Buildings
  • Building Acoustics
  • Light, Lighting and Vision in Buildings
  • Industrial Symbiosis
  • Smart Energy Systems Implementation
  • Energy Systems Modelling

The availability of all optional modules is subject to demand.

Dissertation/report

All MSc students submit a 10,000-word report on a topic related to the main themes of the programme. The topic can be chosen to enhance career development or for its inherent interest.

Teaching and learning

The programme is delivered through a combination of interactive seminars, individual and group tutorials, site visits and a residential field trip. Assessment is through unseen examination, coursework, and the built environment report. Joint coursework, including two major low-energy architectural design projects, is carried out by students in multidisciplinary teams.

Fieldwork

Students will have the opportunity to participate in field trips and site visits including a residential trip to the Centre for Alternative Technology in North Wales.

Travel, accommodation and activities for the residential field visit is free. Travel costs for site visits or fieldwork within the London area (zones 1-6) accessible by public transport is covered by students. Otherwise, travel is covered by the programme.

Further information on modules and degree structure is available on the department website: Built Environment: Environmental Design and Engineering MSc

Careers

Most students who complete the programme move into, or continue in, a building-related profession, such as architecture, low-energy design consultancy, or building services engineering. As the awareness of global environmental issues increases, the demand for people with expertise in the health and energy performance of buildings is expanding rapidly. A number of students have used the MSc as a foundation for MPhil/PhD research.

First destinations of recent graduates include: Neapoli, XC02, Max Fordham, Arup, WSP, Atkns, Buro Happold, PassivSystems, EnergyExcel, local authorities, Foster and Partners, Rogers Stirk Harbour and Partners.

Recent career destinations for this degree

  • Environmental Analyst, Foster + Partners
  • Environmental Consultant, XCO2 Energy
  • Graduate Engineer, AECOM
  • Graduate Engineer, Arup
  • Sustainability Consultant, Arup and studying Environment Facility Management, UCL

Employability

This programme is very "close to market" with many students finding jobs even before their studies have finished: the skills students gain are those that employers need. For example, we teach several tools used by commercial companies including the thermal analysis software IESVE. Students can walk straight into jobs where these are used and be useful immediately. Students sometimes take placement positions while working on their dissertations; in recent years this has included overseas options, for example, with Neapoli in Malaysia. Graduates often contact us through our strong alumni network to recruit for new positions, listening to their feedback ensures we keep the programme relevant to industry needs.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

The UCL Bartlett is the UK's largest multidisciplinary Faculty of the Built Environment, bringing together scientific and professional specialisms required to research, understand, design, construct and operate the buildings and urban environments of the future.

Located in London, the UCL Bartlett is at the heart of a large cluster of creative architects and engineering firms, next to the UK's seat of government and finance and has all the resources of a world city to hand. It offers unrivalled networking opportunities, with alumni in the majority of the major firms in London, who often give lectures to students and appear at networking events.

The multidisciplinary faculty contains the UCL Bartlett School of Architecture, which has been ranked first for Architecture in the UK for many years, and is characterised by a high level of invention and creativity. The school is internationally known as a centre for innovative design.

Accreditation

This course has been accredited as suitable further learning to meet the academic requirement for Chartered Engineers (CEng) by the Chartered Institution of Building Services Engineers (CIBSE) and Energy Institute.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Bartlett School of Environment, Energy & Resources

81% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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The interaction and communication between billions of devices produces and exchanges data related to real-world smart objects. This MSc develops your skills in data mining and Big Data analysis to better understand, utilise and leverage this data. Read more
The interaction and communication between billions of devices produces and exchanges data related to real-world smart objects. This MSc develops your skills in data mining and Big Data analysis to better understand, utilise and leverage this data.

A futuristic connected world, where we increasingly interact with smart objects, on-body, in buildings, in cities and in distant, harsher environments, was once science fiction. This is now a reality: parts of buildings can now interact with each other, smart vehicles can be autonomously controlled and humans can interact with all these using smart phones and wearables.
This innovative Internet of Things (IoT) MSc programme will help you adapt to become one of the highly skilled and in-demand engineers who are able to fully exploit the potential that these technologies offer.

The Internet of Things (IoT) focuses on a vision of more connected, different, things (or digital devices) than in previous visions of the Internet. More ‘things’ are part of the physical world that connect to form smart environments. Humans are constantly increasing the frequency and range of ‘things’ (sensors, tags, cards, phones, actuator, wearables) they interact with in the world. Machine-to-machine interaction will allow more physical things to interact with other things without human intervention for scalability.

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The Master of Science course in Energy Engineering is aimed at students trained as general engineers with skills on the new technologies relevant to the energy conversion and its rational use. Read more
The Master of Science course in Energy Engineering is aimed at students trained as general engineers with skills on the new technologies relevant to the energy conversion and its rational use. Candidates will be required to plan, design and manage energy systems blending creative solutions with up-to-date technologies relative to energy conversion and efficiency enhancement.

At the end of the course, engineers will be good at operating in the current technological/industrial environment - i.e. a dynamic and competitive one - and sensitive to the main industry, environment and security issues and standards.

The main aim of the course is to offer an in-depth theoretical and practical understanding of the most advanced energy conversion technologies, including renewable energy generation and energy storage.

Please visit http://www.en2.unige.it for any further information.

The Course is held at Savona Campus, in the city of Savona.

WHAT WILL YOU STUDY AND FUTURE PROSPECTS

The course consists of modules that include thermo-fluid dynamics and thermo-chemical dynamics, as well as fluid machinery and energy conversion systems (co-generation, fuel cells, power plants from renewable energy sources and smart grids), traditional energy and civil engineering plants, electric networks, economics, available and emerging technologies for reducing greenhouse gas emissions and environmental monitoring.

A rising interest in and increased urge for 20/20/20 policies in Europe has resulted in a growing industrial demand for highly qualified Energy Engineers with a sound knowledge and specific skills to analyze, design and develop effective solutions in a broad range of contexts. Furthermore, in the last few years both emerging industrial countries and developing ones have increased their awareness of environmental issues and energy production and started implementing large energy engineering projects thus boosting the job opportunities worldwide. The course is aimed at students seeking high qualification in the following main fields:

Energy conversion processes from chemical, bio-chemical, thermal sources into mechanical and electrical ones

Sustainable & Distributed Energy: renewable energy (solar, geothermal, wind, hydro), fuel cells, bio-fuels, smart power grids, low emission power plants Sustainable Development: C02 sequestration, LCA analysis, biomass exploitation, Energy Audit in buildings, energy from waste, recycling, modeling and experimental techniques devoted to optimum energy management.

The MSc course work in partnership with industries and research institutes in Liguria, in Italy and abroad.

WHAT DOES THE MASTER IN ENERGY ENGINEERING OFFER TO ITS STUDENTS

In the last years both industrialization and population growth have brought to a higher demand for sustainable energy, smart energy management with reduced environmental impact. As a result the MSc Energy Engineering was born out of the need to better cope with Sustainable Development issues and progress in energy conversion technologies, in including renewable energy generation and energy storage, NZE buildings, with an increasing attention devoted to greenhouse gas emissions reduction through a multidisciplinary approach.

This MSc course is taught in English and students are supported in achieving higher English language skills. The University of Genoa set its modern campus in Savona and in the last few years, public and private funds have been invested to improve its infrastructures, sport facilities, hall of residence, library and an auditorium.

The University of Genoa and Siemens jointly developed a smart polygeneration microgrid in Savona Campus – officially commissioned on February 2014.

Since then the campus has largely generated enough power to satisfy its own needs with the help of several networked energy producers, i.e. total capacity 250Kw of electricity and 300kW of heating.

The grid includes microgasturbines, absorption chillers, a photovoltaic plant, a solar power station and electrochemical and thermal storage systems.

This huge facility together with a series of laboratories located at the Campus (e.g. Combustion Lab, Energy Hub Lab) offer the students a unique opportunity for hands-on activities, e.g. to measure and investigate the performance of real scale innovative energy systems.

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A futuristic connected world, where we increasingly interact with smart objects, on-body, in buildings, in cities and in distant, harsher environments, was once science fiction. Read more
A futuristic connected world, where we increasingly interact with smart objects, on-body, in buildings, in cities and in distant, harsher environments, was once science fiction. This is now a reality: parts of buildings can now interact with each other, smart vehicles can be autonomously controlled and humans can interact with all these using smart phones and wearables.
This innovative Internet of Things (IoT) MSc programme will help you adapt to become one of the highly skilled and in-demand engineers who are able to fully exploit the potential that these technologies offer.

The Internet of Things (IoT) focuses on a vision of more connected, different, things (or digital devices) than in previous visions of the Internet. More ‘things’ are part of the physical world that connect to form smart environments. Humans are constantly increasing the frequency and range of ‘things’ (sensors, tags, cards, phones, actuator, wearables) they interact with in the world. Machine-to-machine interaction will allow more physical things to interact with other things without human intervention for scalability.

The MSc in IoT is designed to meet the demand for a new kind of IT specialist and skills, those who can:

-engineer new interactive products – things;
-acquire, fuse and process the data they collect from things;
-interact with, and interconnect these things as part of larger, more diverse, systems.
-The School of Electronic Engineering and Computer Science draws on its strengths of highly rated R&D centres of excellence in core subject areas comprising Networks, Cognitive Science, Antennas together with interdisciplinary centres such as the Centre for Intelligent Sensing (CIS) and the Centre for Digital Music (C4DM).

The MSc IoT is organised along 3 pathways: Data pathway, Engineering pathway, and the Intelligent Sensing pathway to enable students to focus on these different aspects of the course.

Industrial Experience

The industrial placement currently takes place towards the end of the first year for a maximum of 12 months. It is the student’s responsibility to secure their placement, the school will offer guidance and support in finding and securing the placement but the onus is on the student to secure the job and arrange the details of the placement.

Currently if you are not able to secure a placement by the end of your second semester we will transfer you onto the 1 year FT taught programme without the Industrial Experience, this change would also be applied to any visa if you were here on a student visa.

The industrial placement consists of 8-12 months spent working with an appropriate employer in a role that relates directly to your field of study. The placement is currently undertaken between the taught component and the project. This will provide you with the opportunity to apply the key technical knowledge and skills that you have learnt in your taught modules, and will enable you to gain a better understanding of your own abilities, aptitudes, attitudes and employment potential. The module is only open to students enrolled on a programme of study with integrated placement.

If you do not secure a placement you will be transferred onto the 1 year FT programme.

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This programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage for engineers with a high level of training in renewable energy, smart grids and sustainability. Read more
This programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage for engineers with a high level of training in renewable energy, smart grids and sustainability.

By the time you graduate, you will have a thorough understanding of sustainability standards, various renewable energies, smart grid and power electronics for renewable energy and energy use management in buildings, urban design and other areas. Research on sustainable energy technology has opened up many job opportunities in industry, government institutions and research centres.

What are benefits of the programme?

• studying at international university recognised throughout the world
• close cooperation with world-famous universities and research centres to solve major technical challenges including energy crises and environmental pollution
• excellent research opportunities, using advanced experimental equipment including a network analyser, power analyser, Dspace controller, wind turbine and PV testing system
• continuous development of core modules to meet the requirement of industrial innovation
• cutting-edge research in the intelligent and efficient utilisation of solar, wind energy and other renewable energy sources

Lab Facilities

Power electronics laboratory equipped with advanced experimental equipment
• Sustainable energy laboratory equipped with advanced experimental equipment including a 600W wind turbine, two 270W solar modules, batteries, an inverter with sinusoidal output and main controller
• Electric machine and power system laboratory

Modules

• Sustainable Energy and Environment
• Nuclear Energy Technology
• Power System Network and Smart Grid
• Integration of Energy Strategies in the Design of Buildings
• Photovoltaic Energy Technology
• Renewable Kinetic Energy Technologies
• Power Electronics and Applications for Renewable Energy
• Sustainable Urban Planning Strategies
• Msc Project

What are my career prospects?

Graduates of this programme will typically work on professional tasks including the implementation of sustainable energy technologies within existing or new systems, and modelling and evaluation of the impact on ecosystems, economics and society. Graduates may be employed as electric power system engineers, electric power system consultants, sustainable technology consultants, electric power projects managers, sustainable cities and building design consultants, managers and team leaders in government.

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A flexible Masters degree designed to develop a rigorous understanding of different energy technologies, exploring the subject through a combination of academic study, discussion and hands-on practical work. Read more

Masters in Renewable Technologies

A flexible Masters degree designed to develop a rigorous understanding of different energy technologies, exploring the subject through a combination of academic study, discussion and hands-on practical work.

How is the course taught?

Taught at the Centre for Alternative Technology (CAT), which pioneered sustainability practice and theory in the UK, the MSc course examines renewable energy provision, increased energy efficiency and intelligent management of energy resources. These topics are explored within the context of the ecological, social and economic impacts and the policy drivers at international, national and local scales. Our MSc programme is taught either by distance learning or through residential blocks in one of the most innovative environmental buildings in the UK, or via a mixture of the two.

Different energy technologies are examined alongside new advances in energy storage, smart grids and meters. Computer modelling, data collection and analysis give students practical experience in effective energy management. Students can choose modules from a wide range that covers environmental assessment and renewable energy, cities and communities, energy provision, energy in buildings, and politics and economics.
 
We give our MSc students the knowledge, skills and experience needed to develop a career in the environmental sector and make an impact. The programme draws on our expert staff (https://gse.cat.org.uk/index.php/postgraduate-courses/msc-sustainability-in-energy-provision-and-demand-management/sepdm-staff-profiles) and a wide selection of academics and specialist guest lecturers – people who have made exceptional contributions to environmental thinking and action.

What qualification will you receive?

Successful completion of the programme MSc Sustainable Energy Provision and Demand Management at the Centre for Alternative Technology leads to the award of Master of Science (MSc) by UEL.

Modules include

-          Sustainability and Adaptation Concepts and Planning
-          Environmental Politics and Economics
-          Adaptation Transformation Politics and Economics
-          Cities and Communities
-          Energy Flows in Buildings – Parts A and B
-          Energy Provision (Wind)
-          Energy Provision (Solar PV)
-          Energy Provision (Renewable Energy)
-          Building Performance Assessment and Evaluation
-          Built Environment Applied Project or Built Environment Practice Based Project

Why study at CAT?

Studying at the Centre for Alternative Technology (CAT) is a truly unique experience. For the past 40 years CAT has been at the forefront of the environmental movement, pioneering low-carbon living and renewable technology. At the Graduate School of the Environment (GSE), students benefit from our extensive practical and academic knowledge, graduating with the skills needed to become leading players in the sustainability sector. Find out more about our facilities here: https://gse.cat.org.uk/index.php/postgraduate-courses/msc-sustainability-and-adaptation/sa-site-and-facilities

Hands-on learning

At CAT, hands-on learning takes place side by side with academic study. Residential on-site block learning weeks are taught at the Centre for Alternative Technology (CAT), a truly unique and inspiring learning environment. Nestled in a disused slate quarry on the edge of the Snowdonia National Park, CAT is a living laboratory for paractical, sustainable solutions. It contains some of the most innovative and renowned environmentally conscious buildings in the country, as well as one of the most diverse range of installed renewable technologies, on site water and sewage treatment, sustainably managed woodland and acres of organic gardens.

Flexibility

It is a flexible degree, taught in blocks taken either with an intensive residential stay of five or six nights at the centre, or by distance learning. MSc students are free to choose between these teaching modes for every module. There is a choice of modules, taken over one year or two – meaning the degree can be part time. It is a masters degree designed to give you the best possible experience whilst also meshing neatly with the pressures of modern professional and family life.

Immersive learning environment

Optional residential module weeks include lectures, seminars, group work and practicals. Applied work tends to dominate later in the week once we have laid the theoretical groundwork. These module weeks provide a truly immersive environment to escape daily life and apply yourself to new learning. Many eminent experts give guest lectures or hold seminars during these modules, as it is a course which seeks to draw on the expertise and learning of the whole environmental sector.

Is this the course for you?

If you would like to visit for an overnight stay during a module, where you can attend lectures and workshops and meet staff and students, please contact Shereen Soliman:

Read less
A flexible Masters degree designed to develop a rigorous understanding of different energy technologies, exploring the subject through a combination of academic study, discussion and hands-on practical work. Read more

Masters in Renewable Technologies

A flexible Masters degree designed to develop a rigorous understanding of different energy technologies, exploring the subject through a combination of academic study, discussion and hands-on practical work.

How is the course taught?

Taught at the Centre for Alternative Technology (CAT), which pioneered sustainability practice and theory in the UK, the MSc course examines renewable energy provision, increased energy efficiency and intelligent management of energy resources. These topics are explored within the context of the ecological, social and economic impacts and the policy drivers at international, national and local scales. Our MSc programme is taught either by distance learning or through residential blocks in one of the most innovative environmental buildings in the UK, or via a mixture of the two.

Different energy technologies are examined alongside new advances in energy storage, smart grids and meters. Computer modelling, data collection and analysis give students practical experience in effective energy management. Students can choose modules from a wide range that covers environmental assessment and renewable energy, cities and communities, energy provision, energy in buildings, and politics and economics.
 
We give our MSc students the knowledge, skills and experience needed to develop a career in the environmental sector and make an impact. The programme draws on our expert staff (https://gse.cat.org.uk/index.php/postgraduate-courses/msc-sustainability-in-energy-provision-and-demand-management/sepdm-staff-profiles) and a wide selection of academics and specialist guest lecturers – people who have made exceptional contributions to environmental thinking and action.

What qualification will you receive?

Successful completion of the programme MSc Sustainable Energy Provision and Demand Management at the Centre for Alternative Technology leads to the award of Master of Science (MSc) by UEL.

Modules include

-          Sustainability and Adaptation Concepts and Planning
-          Environmental Politics and Economics
-          Adaptation Transformation Politics and Economics
-          Cities and Communities
-          Energy Flows in Buildings – Parts A and B
-          Energy Provision (Wind)
-          Energy Provision (Solar PV)
-          Energy Provision (Renewable Energy)
-          Building Performance Assessment and Evaluation
-          Built Environment Applied Project or Built Environment Practice Based Project

Why study at CAT?

Studying at the Centre for Alternative Technology (CAT) is a truly unique experience. For the past 40 years CAT has been at the forefront of the environmental movement, pioneering low-carbon living and renewable technology. At the Graduate School of the Environment (GSE), students benefit from our extensive practical and academic knowledge, graduating with the skills needed to become leading players in the sustainability sector. Find out more about our facilities here: https://gse.cat.org.uk/index.php/postgraduate-courses/msc-sustainability-and-adaptation/sa-site-and-facilities

Hands-on learning

At CAT, hands-on learning takes place side by side with academic study. Residential on-site block learning weeks are taught at the Centre for Alternative Technology (CAT), a truly unique and inspiring learning environment. Nestled in a disused slate quarry on the edge of the Snowdonia National Park, CAT is a living laboratory for paractical, sustainable solutions. It contains some of the most innovative and renowned environmentally conscious buildings in the country, as well as one of the most diverse range of installed renewable technologies, on site water and sewage treatment, sustainably managed woodland and acres of organic gardens.

Flexibility

It is a flexible degree, taught in blocks taken either with an intensive residential stay of five or six nights at the centre, or by distance learning. MSc students are free to choose between these teaching modes for every module. There is a choice of modules, taken over one year or two – meaning the degree can be part time. It is a masters degree designed to give you the best possible experience whilst also meshing neatly with the pressures of modern professional and family life.

Immersive learning environment

Optional residential module weeks include lectures, seminars, group work and practicals. Applied work tends to dominate later in the week once we have laid the theoretical groundwork. These module weeks provide a truly immersive environment to escape daily life and apply yourself to new learning. Many eminent experts give guest lectures or hold seminars during these modules, as it is a course which seeks to draw on the expertise and learning of the whole environmental sector.

Is this the course for you?

If you would like to visit for an overnight stay during a module, where you can attend lectures and workshops and meet staff and students, please contact Shereen Soliman:

Read less
What is the ‘EIT-KIC Master of Energy’ all about?. Structure . The Master's programme consists of 120 credits, organized in . Read more

What is the ‘EIT-KIC Master of Energy’ all about?

Structure 

The Master's programme consists of 120 credits, organized in two stages of 60 credits. The first stage consists of compulsory courses that cover a broad base of electrical, thermo-mechanical, and techno-economic subjects. In the second year, students continue working towards writing a Master's thesis and attend elective courses: general, broadening and option-specific.

The first year of this programme combines electrical and mechanical engineering courses with energy-related socio-economic subjects. An integrated project is also included. After the first year exams, the programme organizes a one-week summer school to sharpen participants' innovation and entrepreneurial skills in the energy sector. This summer school includes soft skills such as teambuilding, networking, leadership, entrepreneurship and intercultural communication, all fueled by interesting conversations with professionals from the energy industry, consultancy firms and municipalities.

In the second year a Smart Cities Week course is organized during the annual ATHENS week each November. These students discover a myriad of leading innovations and technologies in the smart cities sector outside of the traditional curriculum.

The Master's thesis is a second-year research project on electrical or thermo-mechanical energy, or on one of energy's technical-economic aspects. A wide range of topics is available every year at KU Leuven and the other second year universities. Here students learn to integrate and apply the knowledge and skills acquired in their previous year. Topics are linked with on-going KIC InnoEnergy research and innovation activities. Project findings will be investigated with a view to optimizing their value and application in both current and future energy contexts.

During the programme, all students have the opportunity to visit at least one international smart cities event, two energy companies and one energy research institute. In addition, all students get to meet at least one venture in the KIC InnoEnergy Highway active in the Smart and Efficient Buildings and Cities technology field. In this way, the programme aims at maintaining a multidisciplinary approach to energy technology, while allowing students ample freedom in shaping their personal profile (e.g. with emphasis on in-depth knowledge or a broader profile).

After successfully completing the programme, alumni receive a double degree, one from each university they attended during the two years, as well as a KIC-EIT certificate that recognizes the extra activities accomplished.

A strong mobility concept by KIC InnoEnergy and the EIT means that students spend their first year at one university, their second year at another, and have the possibility to complete an internship at a third.

Strengths

  1. Top merits (according to participants in Survey 2013-2014): mobility and international exposure, Innovation and close relation with industry in joint activities and project-based course, Master's thesis with industry/research centre, Innovative education and Entrepreneurship skills, Nice topic, attendance to top international events related to the topic, Double-degree Scholarschip, Active organisation, Effective communication.
  2. Energy engineers are much wanted by industry and society. Most students have an industry contract before they officially get their degree.
  3. Unique programme in Belgium and a pioneering role in Europe.
  4. Graduates of the programme have gained an active knowledge of the basic aspects and methods of energy conversion and rational use of energy in the three domains: 'electrical energy', 'thermo-mechanical energy', and 'techno-economic energy knowledge'. According to the relevant stakeholders these different subjects are well balanced.
  5. The strong multidisciplinary programme is valued highly by students, alumni, and industry.
  6. Clear, well-structured and balanced programme with a good mix between core programme and elective programme, allowing students to adjust programme according to own interests.
  7. Strong core team of professors with large research expertise (all top researchers in their field), and with professional educational training.
  8. Diverse group of part-time guest professors from industry with specific knowledge on energy topics.
  9. Teaching of exercises, labs and coaching of Master's thesis by research-oriented staff (PhD students).
  10. Versatile preparatory programme that can be well fitted to background of inflow.
  11. Every year, a one-week Germany trip is organized (optional), during which students visit German energy companies (ABB, 50Hz, Siemens, RWE, etc). Most students participate.
  12. Good gender diversity in teaching staff.
  13. Gound counseling service provided by PhD researchers that have followed the Master's programme themselves.
  14. Continuous process of quality control, guaranteed by a structural approach. Next to the classic processes common for KU Leuven and the Faculty of Engineering Science, the core teaching staff meets twice a year in a one-day meeting to discuss on the programme. The extended teaching staff, including guest lecturers from industry, meets on a yearly to two-yearly basis, discussing longer term vision and strategy. Finally, the Industrial Advisory Board meets on a two-yearly basis.

Career perspectives

As a graduate, you will possess a genuinely multidisciplinary skill set and be qualified to work in a research, policy-based or industrial environment.



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The world is facing increasing environmental threats which are posing severe scientific, social and economic challenges to the human race. Read more

Overview

The world is facing increasing environmental threats which are posing severe scientific, social and economic challenges to the human race. These challenges include: the depletion of natural resources, the loss of diversity and the need to develop new forms of energy generation whilst efficiently utilising existing energy sources.
Tackling these environmental problems and establishing a sustainable environment requires the adoption of appropriate policies and managerial strategies. The interdisciplinary nature of this postgraduate course provides a broad understanding of these environmental problems whilst embedding the appropriate specialist scientific, managerial and generic skills for a career in the environmental sustainability sector.
The course incorporates Keele University’s internationally recognised expertise in research and teaching on environmental issues. It is taught by a team of environmental specialists working in the fields of environmental technologies, biological sciences, chemical science, project management, and environmental policy and politics.

See the website https://www.keele.ac.uk/pgtcourses/environmentalsustainabilityandgreentechnology/

Keele University Sustainability Hub

Keele University’s campus has unrivalled potential to form a unique hub for research, development and demonstration of a range of environmental and sustainable technologies.

The Keele Sustainability Hub site contains both academic buildings and buildings for technological companies. Renewable energy sources are integrated into these buildings, incorporating:
- Solar thermal
- Solar PV
- Climate control and underfloor heating
- Smart lighting systems
- Rainwater harvesting
- Ground source heat
- Bio-fuel woodchip burner
- Wind turbine

The main focus of the site is the specialist Hub for Sustainability building. The Sustainability Hub acts as a focus for the research into, teaching of, and management of sustainability and green technology that takes place at Keele University. It’s a means to bring all these different activities together and then to communicate the innovations and implications out to the rest of campus, schools, businesses and the wider community.

As a student on the MSc in Environmental Sustainability & Green Technology programme a lot of your teaching will take place at the Hub, and you’ll have direct access to these environmental developments first hand. The students use the Hub and its facilities as their base - a place to meet and to study - during their year at Keele.

Course Aims

The MSc in Environmental Sustainability and Green Technology is designed to provide an interdisciplinary understanding of environmental challenges whilst giving the opportunity to specialise in several sustainability themes related to geosciences, energy generation, biological science, green information technology, environmental policy and politics, and project management.

Successful students will gain
- An understanding of knowledge in the areas of science, technology, policy and green political theory relevant to environmental sustainability

- Experience in analytical and computer techniques which would allow them to contribute to the solving of environmental challenges

- A conceptual understanding to evaluate critically current research and advance scholarship in environmental sustainability

- A comprehensive understanding of experimental design, planning and scientific techniques within a research project

- Problem-solving and team-working skills relevant to the implementation of sustainable technologies and policies

Course Content

The MSc programme comprises 8 taught 15-credit modules and a 60-credit research project which is undertaken either at Keele University or on placement with an industrial collaborator.

This structure allows students to obtain a postgraduate certificate (60 credits) or a postgraduate diploma (120 credits) depending on the number of modules studied.

The first two modules provide an overview of important environmental technologies and policies relevant to sustainability. Students then choose four from ten optional modules which are arranged within four themes:
- Renewable and Sustainable Energy
- Biological Challenges and Sustainability
- Environmental Politics
- Policy and Project Management

Cross theme studies are encouraged. This interdisciplinary knowledge is then applied in a student-centred learning situation. This provides the necessary teamwork and problem-solving skills to formulate strategies to address a range of environmental and sustainability challenges.

The 60-credit research project is preceded by a Research Skills module.

Teaching & Assessment

Modules are assessed by assignment and/or examination. The research project is based on the submission of a 15 - 20,000 word report that is undertaken by the student in conjunction with an academic supervisor and, where appropriate, an industrial collaborator.

Field course costs

There will be no charge to new students taking field courses. The School receives an annual financial contribution from the University to support the cost of the field course programme. Therefore field course costs for new postgraduate students will be paid for by the University.

Employment Case Studies

Our unique inter-disciplinary course leads our graduates into a diverse range of careers.

Our students have chosen careers in research; in local, regional and national government; multi-national corporations; environmental consultancies and charities.

For examples of what graduates are doing now, see here - https://www.keele.ac.uk/gge/applicants/postgraduatetaughtcourses/msc-esgt/employmentcasestudies/

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/

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