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Masters Degrees (Green Buildings)

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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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The Sustainable Smart Cities Dual Master’s program from the University of Alabama at Birmingham (USA) and Staffordshire University (UK) is a unique professional postgraduate program that provides an inter-disciplinary grounding in the principles, application and key technologies required to develop sustainable smart cities. Read more
The Sustainable Smart Cities Dual Master’s program from the University of Alabama at Birmingham (USA) and Staffordshire University (UK) is a unique professional postgraduate program that provides an inter-disciplinary grounding in the principles, application and key technologies required to develop sustainable smart cities.

Delivered by experienced faculty at both UAB and Staffordshire University, this genuinely international course will equip you with the knowledge, skills and critical thinking to assess, design and implement sustainable smart cities strategies across the globe.

Get two Master's degrees

As a Dual Award you will receive two Master’s degrees, one from the University of Alabama at Birmingham and one from Staffordshire University. Upon successful completion of the Master’s programme you will be awarded the following degrees:

MEng Sustainable Smart Cities (UAB)

MSc Sustainable Smart Cities (SU)

The course offers a broad curriculum covering sustainability theory, sustainable urban development, low carbon and renewable energy systems, green infrastructure, natural resource management, health and liveability, transport and mobility, big data analytics and smart technologies.

Course content

The Dual Master's in Sustainable Smart Cities is delivered via ten modules:

Principles of Sustainable Development (UAB)
Drivers of sustainable smart cities (i.e. climate change, population growth, resource scarcity, etc) and the principles of sustainable development.

Introduction to Sustainable Smart Cities (SU)
Sustainable urban planning and smart growth, engaging with smart citizens, sustainable governance and creating sustainable economic development.

Low Carbon and Renewable Energy Systems (SU)
Low carbon and renewable energy technologies, renewable energy integration and smart grids.

Managing Natural Resources and Sustainable Smart Cities (SU)
Water, waste and carbon management, pollution prevention, climate adaptation and resilience and integrated environmental systems management.

Green Infrastructure and Transportation (UAB)
Public and open space design, principles of urban design and smart sustainable mobility and transportation.

Green Buildings (UAB)
Smart buildings and infrastructure, principles of sustainable construction, sustainable building materials, building and energy management systems and standards and rating systems.

Health & Liveability (UAB)
Genomics, health informatics, designing for well-being:, environmental justice and food smart cities.

Smart Technologies for Cities & Buildings (SU)
Internet of things, remote sensing and communication technologies at individual building, neighbourhood and city-scale.

Big Data & Smart Cities (SU)
Big data platforms and cloud computing, urban informatics, GIS and spatial analysis, measuring impact and data visualization.

Research Methods & Project Planning (UAB & SU)
Introduction to research methods and the principles of project planning to enable students to plan for their capstone project.

Capstone Research Project (UAB & SU)
You will design and implement a piece of research that will enable you to reflect on the knowledge and skills which you have learned during your taught modules and apply them to a real world problem or issue. This research may draw on the practical and work-related experiences of the student.

You will have an opportunity to present their capstone project findings at the annual Sustainable Smart Cities Research Symposium hosted by the University of Alabama at Birmingham and Staffordshire University.

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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 Master of Engineering Leadership (MEL) in High Performance Buildings is an intensive one-year degree program for engineers and architects who want to make a difference in the building sector. Read more
The Master of Engineering Leadership (MEL) in High Performance Buildings is an intensive one-year degree program for engineers and architects who want to make a difference in the building sector. You’ll graduate from this program with a strong technical foundation in energy systems design modelling, equipping you to be a technical leader in the integrated design, construction and maintenance of green building energy systems. This technical foundation is balanced by courses in leadership and business, giving you a powerful skillset for overseeing the design of green buildings, from the initial planning stages through to implementation and operation.

The project-based curriculum has three primary areas of focus: architectural courses on green building design and regenerative development; engineering courses on energy modelling and design, and two interdisciplinary capstone projects where you will work with clients to develop real-world solutions to their design challenges. While 60 per cent of your classes will focus on your technical specialization, the remaining 40 per cent are leadership development courses that will enhance your business, communication and people skills. Delivery of the management and leadership courses are in partnership with UBC's Sauder School of Business.

Graduates of this program will have the technical and leadership skills to improve the energy performance of existing buildings and design integrated high-performance energy systems for new buildings.

What Makes The Program Unique?

The MEL in High Performance Building degree was developed in close collaboration with industry partners, who spoke to us of the high demand for high-performance building experts. Government and industry employers are seeking professionals who have the creative and visionary skills to develop the processes and systems that can lead to lasting change, and who have the cross-functional technical and business skills to propose innovative solutions, manage teams and direct projects.

To complement your academic studies, professional development workshops, delivered by industry leaders, are offered throughout the year-long program. These extra-curricular sessions cover a range of topics such as:
-Leadership fundamentals
-Giving and receiving feedback
-Learning how to deliver a successful pitch
-Effective presenting

The workshops also provide opportunities to network with professionals from a wide range of industries, UBC faculty and students in the MEL and MHLP programs.

Funding Sources

The Faculty of Applied Science offers a limited number of $5,000 merit-based awards to MEL students. All applicants who submitted their application before July 1 are automatically considered for this award. You do not need to submit a separate application. The merit-based awards are given to selected applicants and only the successful recipients will be notified before the program starts in January.

Aside from the merit-based award, there no other scholarships, grants or funding offered by UBC for MEL students.

Career Options

Energy use in buildings is a significant contributor to greenhouse gas emissions, making it a high priority to design more energy-efficient buildings and retrofit existing buildings. This is a growing sector, with opportunities in consulting, construction, manufacturing and government. With governments at all levels increasing the standards for energy conservation, there is a need for professionals who can take leadership in designing the integrated high-performing energy systems in our built environment. Examples of typical graduate job roles include Engineering consultant, LEED professional, city or municipal planner, code and bylaw developer, project manager in architectural & engineering firms, building energy auditor and energy manager.

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The first month will be dedicated to introduce the students to the skills of the job, including 3d modeling, digital fabrication, Arduino technology, and principles of environmental strategies. Read more
The first month will be dedicated to introduce the 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, the 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, a series of activities (theoretical lectures, seminars, design workshops, conferences, construction workshops) will disseminate knowledge and stimulate the 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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Designed for a new generation of heritage leaders, this programme provides the interdisciplinary skills needed to deliver the heritage programmes and projects of the future. Read more
Designed for a new generation of heritage leaders, this programme provides the interdisciplinary skills needed to deliver the heritage programmes and projects of the future. The programme combines aspects of cultural heritage - historic buildings, museums, collections, sites and landscapes - with the best preventive conservation and heritage management policies, projects, methodologies and practices.

Degree information

Students are encouraged to take a long view of preservation and heritage management, and challenged to define problems, set objectives and explore a range of sustainability issues and strategies. Concepts of value, sustainability, life expectancy, stewardship, ownership, vulnerability and risk are interwoven with the scientific study of historic materials, assemblies, technologies and systems.

Students undertake modules to the value of 180 credits.

The programme consists of four core modules (120 credits), a research report (60 credits) and an optional project placement (not credit bearing). A Postgraduate Diploma (120 credits, full-time nine months) is offered. There are no optional modules for this programme.

Core modules
-Sustainability and Heritage Value
-Heritage Materials and Assemblies
-Sustainable Strategies
-Project Planning, Management and Maintenance

Dissertation/report
All MSc students submit a 10,000-word dissertation 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 taught using a variety of media and strategies including problem-based and case-based learning, discussion groups, project work, exercises, coursework and reports. Assessment is through written assignments, oral examination and the 10,000-word dissertation.

Fieldwork
A two-week study visit to Malta forms an integral part of the degree. This is hosted by Heritage Malta, the national agency responsible for the management of national museums, heritage sites and their collections in Malta and Gozo.
Travel and accomodation expenses for the visit to Malta are covered by the programme.

Careers

Most graduates are expected to assume responsibility for directing major projects within museums, libraries, archives, or organisations responsible for historic buildings and archaeological sites; or as a part of interdisciplinary architectural, engineering or project management practices. Additional career enhancement may be achieved by using the MSc as a foundation for PhD research.

Top career destinations for this degree:
-Senior Project Manager, National Trust
-Consultant to Ministry of Culture India, Advisory Committee on World Heritage Matters
-Carbon Consultant, Sturgis Carbon Profiling
-Project Planner, Transport for London
-Green Building Consultant, ECADI (East China Architectural Design & Research Institute)

Employability
The programme, which is accredited by RICS, is an internationally recognised qualification from a world-leading university that improves equips students with the skills and expertise needed to contribute to heritage projects at an advanced level.
There is an opportunity to undertake a placement at a leading heritage organisation or practice during the programme.
Students gain access to an extensive alumni network of professionals who have studied on the programme and are currently leaders in the field.

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.

Students on this programme benefit from: international, interdisciplinary teachers who are leading professionals in their field; real-life heritage case studies as the basis for discussing complex and demanding issues; access to public stewards and private owners of heritage - in order to learn from practice and leading heritage stakeholders; a fully funded study visit to Malta; project placement opportunities with leading international heritage organisations.

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Become a sustainable engineering expert, learning to use energy and resources so that the natural environment meets the needs of future generations. Read more
Become a sustainable engineering expert, learning to use energy and resources so that the natural environment meets the needs of future generations.

You might already be in industry and are looking to develop your engineering skills for career progression, or you could be keen to further your studies before entering the profession.

Our course enables you to understand sustainability in which ever area of engineering you wish to specialise, from simulation, modelling and eco engineering, to sustainable systems design and green computing technologies, to name just a few.

Our aim is simple - to provide you with a learning experience that helps you to achieve the career you want. That's why our course is made up of option modules - it's an opportunity to tailor the course so that it reflects engineering sustainability issues that are most important to you.

Innovation will be at the heart of your studies, developing your ability to find sustainable solutions to engineering problems anywhere in the world, and equipping you with the skills to design and construct sustainable systems.

- Research Excellence Framework 2014: our University demonstrated strength in five emerging areas of research which it entered into the assessment for the first time, including computer science.

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

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

Bursting with creative solutions to sustainable challenges, your engineering skills will be in demand around the world and across many industries.

If you're currently in a junior management or technical role, you will gain the expertise to progress your career to focus more on the processes and management of environmentally sustainable engineering.

- Engineer
- Environmental surveyor and analyst
- Automation consultant
- Project manager

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

You will have access to a range of impressive facilities, including FlexSim Discrete simulation software, Dimension Rapid Prototyping machine, ARM development boards, concrete beam production testing, structural element testing and hydraulics equipment, to name just a few.

To meet the government objective of cutting greenhouse gas emissions by four fifths by 2050, UK businesses are increasingly looking for professionals who are experts in how energy is used in buildings. The research findings of the Leeds Sustainability Institute at our University will feed into your course and ensure what you learn reflects the latest, cutting-edge developments in sustainable engineering so you can catch the eye of such employers.

In addition to this, you'll benefit from our strong connections with business leaders and sustainability experts, many of whom provide guest talks to our students.

If you're already working in industry you will also benefit from assignments that allow you to focus on your own place of work, enabling you to apply what you learn straight away in your current role.

Modules

Work Based Learning (option module)
Provides a foundation upon which to develop engineering skills and protocols through a work based or work simulated environment.

Final project
Carry out an in-depth research project, presented in a dissertation, into an area of sustainable engineering.

ICT and Environment (option module)
Examine the environmental impact of Information and Communications Technology (ICT) in an industrial / commercial setting.

Project Management (option module)
Develop the ability to initiate, plan, execute, manage and sign off a project.

Simulation and Modelling (option module)
Use discreet event simulation and 3D modelling techniques to construct virtual factories that use automated systems.

Sustainable Systems Design (option module)
Review current trends in building services systems design, focusing upon design approaches, sustainability considerations, electrical systems and lighting design.

Engineering Systems Control (option module)
Study real time control issues using the latest PLC controls and emulation software.

Lean and Agile Engineering (option module)
Analyse how organisations respond to rapidly changing markets, unknown or changing product requirements.

Green Computing Technologies (option module)
Investigate, identify and evaluate technologies to minimise the energy consumption and environmental impacts of computing resources.

Sustainable Buildings (option module)
Enhance your knowledge of building and system performance in resolution of carbon reduction and achieving long-term sustainability.

Eco Engineering (option module)
Explore the environmental issues for the life cycle of a product, from raw materials to the final recycling.

Facilities

- Library
Our libraries are two of the only university libraries in the UK open 24/7 every day of the year. However you like to study, the libraries have got you covered with group study, silent study, extensive e-learning resources and PC suites.

- Broadcasting Place
Broadcasting Place provides students with creative and contemporary learning environments, is packed with the latest technology and is a focal point for new and innovative thinking in the city.

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

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The construction industry is a large employer, with over 100 million people worldwide believed to depend on it. Read more
The construction industry is a large employer, with over 100 million people worldwide believed to depend on it. The resulting built environment accounts for nearly 50% of carbon emissions as it consumes an equal percentage of extracted, natural materials generating large quantities of landfill waste and using vast amount of water, all valuable and increasingly scarce resources.

Course Overview

UK construction is well-placed to benefit from the opportunities presented by the global shift to a low carbon economy and green construction, but there is a continuing need to ensure investment in innovation and technology alongside increased collaboration between businesses and research institutions to enable the UK to realise this potential. There is also scope for further progress, particularly with regard to addressing evident skills shortages. The global green and sustainable building industry is forecast to grow at an annual rate of 22.8% between now and 2017 as a result of increasing low carbon regulatory requirements and greater societal demand for greener products. It seems that the market is recognising these opportunities.

According to recent research by McGraw-Hill Construction (2013), around half the architects, engineers, contractors, building owners and building consultants around the world anticipate that at least 60% of their work will be green by 2015, up from 28% of firms in 2012 and only 13% in 2009.

The UK’s existing housing stock, which accounts for over half of the greenhouse gas emissions from the built environment, presents growth and development opportunities for the UK’s low carbon and sustainable construction market.

The programme will draw upon subject expertise within the School of Architecture, Built and Natural Environments, which has been commended by Externals for its commitment to innovative teaching and learning. The programme enhances a number of advanced transferable skills and equips the student with a range of skills appropriate for a broad variety of future opportunities as well as providing skills and competencies for those students who are progressing to MPhil / PhD. Regularly, our MSc students have progressed to our PhD provision. Sustainability is seen as a priority in construction circles; the very nature of its operation places a heavy burden on the environment. The programme holds firm the sustainability concept and provides students with ‘real’ examples of established practices.

Key Features

The School of Built and Natural Environment prides itself on providing a supportive learning environment, with personal attention afforded to all students. Delivering a successful and enjoyable learning experience is at the very core of our vision to produce first class professionals.

We are situated in an urban maritime environment very close to Britain’s first designated ‘Area of Outstanding Natural Beauty’ and with many interesting buildings and cultural assets nearby. We are in close proximity to magnificent natural and physical resources of south, mid and west Wales and the University and its staff play a major role within the conservation and heritage management of these and other similar national assets.

As class sizes are generally less than 25, this engenders a culture and environment that listens to and supports individual student needs. Our teaching is informed by research in subject’s that extend right across our portfolio, suitably supplemented by external experts from around the world. We believe in engaging with employers to develop, deliver and review courses that enhance our graduate’s employability credentials in a manner that is central to our vision for students, the city and region. This is further reflected by recent graduate success stories that include employment in international organisations, entrepreneurship and community engagement. Our commitment is demonstrated by recent investment in facilities, staff and engagement, which means the future for our graduates, is stronger than ever. We truly look forward to meeting you in person and helping you achieve your personal goals and ambitions.

Assessment

Assessments used within this Programme are normally formative or summative. In the former assessment is designed to ensure students become aware of their strengths and weaknesses. Typically, such assessment will take the form of practical exercises where a more hands-on approach shows student’s ability on a range of activities. Traditional formal time-constrained assessment is by means of tests and examinations, normally of two-hour duration. Examinations are a traditional method of verifying that the work produced is the students’ own work.

To help authenticate student coursework, some modules require that the student and lecturer negotiate the topic for assessment on an individual basis, allowing the lecturer to monitor progress. Some modules where the assessment is research-based require students to verbally/visually present the research results to the lecturer and peers, followed by a question and answer session. Such assessment strategies are in accord with the learning and teaching strategies employed by the team, that is, where the aim is to generate work that is mainly student-driven, individual, reflective and where appropriate, vocationally-orientated. Feedback to students will occur early in the study period and continue over the whole study session thereby allowing for greater value added to the student’s learning.

Career Opportunities

The MSc is widely recognised as a valuable postgraduate qualification. It demonstrates the student’s ability to commit to a programme of study and develop their knowledge within that area of academic study. The programme will help develop skills which are valuable to a wide range of employers, such as the ability to analyse complex information critically, the ability to present clear and coherent arguments and the ability to present complex information in a clear manner.

Such an education will develop an awareness of the interconnectedness of the built environment, and equip the student with a qualification relevant to a number of different vocational situations. The flexibility of the modular programme enables students to develop packages of study which satisfy specialist interests and career aspirations in the built environment.

In business many large organisations have established management systems and auditing procedures, and our former students’ career paths demonstrate opportunities at all levels of management. This degree, which was developed in consultation with the BRE and major Companies/Consultants, will help students develop a career in these areas. In fact, the integral link with the BRE is a fundamental ‘kitemark’ for students and associated employers of this programme.

The School has a long history of industrial liaison. Since the 1990s programmes have had annual industrial liaison meetings. Feedback on new policies, initiatives and issues informed the curriculum, teaching and practice, especially when providing valuable input prior to validation (in particular BRE). The links will also provide experience for students to work on ‘live’ projects.

Recommendations by BRE on the content of the proposed programme(s) include:
-Providing students with the opportunity to work on interdisciplinary projects with students pursuing other construction-related qualifications, for example, architects, surveyors, civil engineers, quantity surveyors, planners and tradespeople; this approach would simulate real-life construction projects
-Enabling students to gain practical experience, thus applying the theory they have learnt

These types of industrially-centred learning provide the opportunity to inform teaching, learning and assessment adding much value to employability.

Professional Accreditations

In progress with CIOB, RICS and CABE.

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This course is uniquely broad in its coverage, reflecting the range of knowledge and skills required to address the challenges of energy, climate change and sustainable development. Read more

About the course

This course is uniquely broad in its coverage, reflecting the range of knowledge and skills required to address the challenges of energy, climate change and sustainable development. Business, society and policy makers are recognising that change is required at all levels of society if we are to address the challenge of sustainable energy and development that meets the needs of future generations.

This course will allow you to understand how sustainable development can be achieved and how we can deal with global climate change through sustainable energy, more efficient design and manufacturing, better management of buildings, organisations and behaviour change. You are able to choose from a range of modules to focus either on more general sustainable development, policy and behaviour change or consider strategies for business and industrial sustainability. If you want to be equipped, challenged or re-trained to lead communities, organisations and governments in responding to this challenge then this course is for you.

The course is suitable for graduates from a variety of disciplines with either a social science or physical science background. It is also suitable for mid-career professionals with relevant experience. The course has been accredited by both the Chartered Institute of Building Services Engineers (CIBSE) and the Energy Institute for completing the educational requirements for chartered engineer registration.

Reasons to Study:

• Academic and research expertise
With more than 30-year’s research experience, our Institute of Energy and Sustainable Development (IESD) research and teaching staff provide students with a unique opportunity to learn from scientists actively involved in furthering knowledge and sharing expertise

• Flexible study options
the course is designed to be flexible and fit around you with on campus, part-time or full-time or distance learning options, and multiple exit awards from a full master’s to a single module

• Course content relevant to modern day practice
This course has evolved from input from established courses delivered by the IESD, relevant research projects and industry-related issues are covered to ensure you gain the relevant knowledge and expertise required for when you graduate

• Study a wide range of specialist modules
course content is regularly reviewed and modules have been specifically developed to address skills gaps in the industry

• Excellent graduate prospects
graduates have gone on to work for global companies including the Carbon trust, BMW, National Grid and the European Commission; as well as a variety of other energy and environmental consultancies, central and local government and multinational organisations

Course Structure

Modules

• Sustainable Development
• Sustainable Energy
• Energy in Buildings
• Resource-Efficient Design
• Energy Analysis Techniques
• Research Methods

Optional Modules:
• Integrated Environmental Strategies
• Leading Change for Sustainability
• Low-Impact Manufacturing
• Green Business

You will complete the MSc by undertaking a research project on a topic of your choice, supervised by an experienced member of research staff.

Teaching and assessment

Full-time students attend for two days each week and receive formal lectures from experienced researchers and teaching staff, complemented by informal seminars and group discussions. Part-time students attend one day per week. You will also be expected to undertake self-directed study.

Distance learning students follow a structured study plan provided on the VLE, supported by discussion forums with other students, and email and telephone conversations with the module leader.

All assessment is by coursework. Each taught module has two items of coursework. The first is a smaller assignment, on which prompt feedback is given while the module is being studied. A second, major assignment is submitted after the material has been assimilated.

As well as the eight taught modules, students complete either an individual dissertation or a team-based design project, and all students get to attend the annual MSc conference, where final year students present.

Contact and learning hours

You will normally attend two-four hours of timetabled taught sessions each week for each module undertaken during term time; for full time study this would be 12 hours per week during term time. You can also expect to typically undertake a further hours of six hours independent study and assignments as required per week.

To find out more

To learn more about this course and DMU, visit our website:
Postgraduate open days: http://www.dmu.ac.uk/study/postgraduate-study/open-evenings/postgraduate-open-days.aspx

Applying for a postgraduate course:
http://www.dmu.ac.uk/study/postgraduate-study/entry-criteria-and-how-to-apply/entry-criteria-and-how-to-apply.aspx

Funding for postgraduate students
http://www.dmu.ac.uk/study/postgraduate-study/postgraduate-funding-2017-18/postgraduate-funding-2017-18.aspx

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The Master of Landscape Architecture (MLA) is designed for graduates who wish to become professional landscape architects. The programme is accredited by the Landscape Institute, offering a 2-year 'graduate entry' route for candidates from diverse backgrounds, professions and educations. Read more
The Master of Landscape Architecture (MLA) is designed for graduates who wish to become professional landscape architects. The programme is accredited by the Landscape Institute, offering a 2-year 'graduate entry' route for candidates from diverse backgrounds, professions and educations.

The MLA programme has a focus on design excellence, with landscape architecture projects exploring issues of cities, society and the environment. Students develop skills and knowledge in: design, history, theory, professional practice, technology, ecology, sustainability, horticulture, drawing and digital representation. Through your studies, you will engage fully with the digital and workshop facilities of the new Stockwell Street building in Greenwich. You will also have the opportunity to be involved with the 14 green roofs at Stockwell Street and the resources of the adjacent Royal Park in Greenwich. Examples of student work can be found on our blog, http://www.thelandscape.org/.

Applicants include graduates from architecture, design, art, geography, sociology, ecology and many other disciplines. The programme attracts many applicants who are changing career or further focusing their career in the profession of Landscape Architecture.

The aims of the programme are:

- To introduce to and advance students through the design, technical, professional, and theoretical skills of Landscape Architecture practice

- To encourage an environment of innovation and creativity in the development of exceptional landscape architecture projects

- To establish social, ecological and design processes as a fundamental aspect of landscape architecture

Visit the website http://www2.gre.ac.uk/study/courses/pg/arc/lan-arc-mla

Architecture and Landscape

We need tools to help us create a built environment that is responsive rather than obstructive to its users and to the world around it. At Greenwich we encourage both students and staff to embrace the interconnectedness of design, construction and building management, of landscape architecture and graphic design, and to constantly look at new ways of exploring these areas.

All architecture programmes focus on the urgent necessity to change our living habits in order to design and build a sustainable urban environment.

The construction management programmes are designed to provide students with a high level of understanding of the design, function, construction and statutory requirements for buildings of all classes, and to prepare them for more advanced employment within the construction industry.

What you'll study

- Year 1:

Landscape design 1: Experimentation and communication
Landscape design 2: Ecologies, exploration and proposition
Architecture and landscape practice 2
Landscape design technology 3
Contemporary theories of landscape

- Year 2:

Advanced landscape design
Landscape representation and technique
Professional and technical practice
Design research methodologies
Landscape and urbanism theory
Masters project

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Assessment

Assessments include a design portfolio, technical reports, professional reports, theory essays, and a thesis.

Specialist equipment/facilities

Facilities include design studios, a model workshop, digital workshops and green roofs.

Professional recognition

The Master of Landscape Architecture (MLA) programme is part of a Landscape Institute accredited route to becoming a fully-qualified Chartered Landscape Architect.

Career options

London is home to many leading international landscape architecture firms. Recent graduates from the University of Greenwich have successfully gained employment in the public and private sectors in London, the UK and worldwide. Many have designed and worked on extraordinary landscape projects such as the London Olympic Park, Gardens by the Bay in Singapore and the Eden Project. Other graduates, such as Marti Franch, have established international award winning design studios.

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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About the course. -Accredited by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute. -Develop an understanding of the applications of renewable energy and sustainable technologies, combined with awareness of the environmental impact of using non-sustainable methods. Read more
About the course:
-Accredited by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute
-Develop an understanding of the applications of renewable energy and sustainable technologies, combined with awareness of the environmental impact of using non-sustainable methods
-Engage with issues concerning the role of energy, including questions arising from demands for secure, affordable and sustainable processes

WHAT WILL YOU STUDY?

Sample modules:
-Energy in buildings
-Renewable energy in power systems
-Energy, carbon and the environment
-Carbon management and analysis
-Sustainable heat and power

Please note that all modules are subject to change.

WHAT CAREER CAN YOU HAVE?

Depending on the programme, graduates may follow careers in a wide range of disciplines in the built environment and energy sectors. Examples include: cost management, quantity surveying, architectural and engineering design, project management, construction management, business management, environmental engineering, facilities management, building energy operation, green building assessment, BIM and CAD management, design management, energy management and energy policy.

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The MSc in Facility and Environment Management is Europe's longest-established programme for facility managers, providing a first-class education and training for the fast-moving field of the built environment. Read more
The MSc in Facility and Environment Management is Europe's longest-established programme for facility managers, providing a first-class education and training for the fast-moving field of the built environment. Directors of facilities management at most of the recent landmarks on London are likely to have graduated from this programme.

Key Information

- Application dates
All applicants:
Open: 5 October 2015
Close: 29 July 2016

As the programme is designed to enhance the knowledge base of practitioners in facility management, it is useful for candidates to have some knowledge, demonstrable competence, and a skill set related to facility management practice, in addition to the above requirements.

English Language Requirements

If your education has not been conducted in the English language, you will be expected to demonstrate evidence of an adequate level of English proficiency.
The English language level for this programme is: Standard
Further information can be found on http://www.ucl.ac.uk/prospective-students/graduate/life/international/english-requirements .

International students

Country-specific information, including details of when UCL representatives are visiting your part of the world, can be obtained from http://www.ucl.ac.uk/prospective-students/international .

Degree Information

Our philosophy is to base our teaching on real-world issues in facilities management (FM) at high-performing organisations in both the private and public sectors. Our students develop the ability to think critically about all facets of the FM services - maintenance, engineering, projects, catering, cleaning, security and property management, by considering engineering and management theories and concepts and their applications to FM situations in these service lines. This allows our students to use their experience to explore these applications in their current or future careers.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (90 credits), two optional modules (30 credits) and an original dissertation (60 credits).

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

- Core Modules
Introduction to Facility Management
Management Concepts for Facilities
Environment Management and Sustainability
Service Operations Management
Space and Workplace Management
Facility Management Law

- Options
Asset Management and Capital Projects
Facility Management Finance and Governance
Building Information Modelling and Management for Sustainability
Or any other MSc module from the extensive list within the faculty.

- 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 interactive, small-group discussions, seminars, visits and self-directed work, all supported by UCL's Moodle-based e-learning portal. There are parallel programmes in London and Singapore and students in the two locations can meet virtually and share leading-edge perspectives on green and sustainable FM operations.

Further information on modules and degree structure available on the department web site Facility and Environment Management MSc http://www.bartlett.ucl.ac.uk/iede/programmes/postgraduate/mscdiploma-facility-environment-management

Funding

The International Facility Management Association (IFMA) provides scholarship opportunities, which can be reviewed on their website at: http://www.ifma.org.
Scholarships relevant to this department are displayed (where available) below. For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website http://www.ucl.ac.uk/prospective-students/scholarships .

Careers

The majority of graduates are engaged at a senior level in facility management operations, consultancy or design. Some students use the MSc as a foundation for subsequent MPhil/PhD research. The programme has helped participants to improve career prospects and keep ahead of developments in this field.

The students from this programme move into a variety of facility positions, ranging from assistant facility managers, property managers, contract managers, consultants (normally engineering based students) to directors of facilities (both public and private sector). For overseas students the degree normally leads to taking positions with international property management companies or multi national companies, depending on the level of experience.

Top career destinations for this degree:
- Software Engineer, BSkyB (2013)
- Assistant Facility Manager, Cushman and Wakefield (2013)
- Facilities Manager, Shell (2011)
- Facilities Manager, Transport of London (2011)
- Environmental Logistics Manager, NHS King's College Hospital (2012)

- Employability
The students from this programme move into a variety of facility positions, often depending on their previous work experience and management capabilities, these jobs range from Assistant Facility Managers, Property Managers, Contract Managers, Consultants (normally Engineering based students) to Director of Facilities (both public and private sector). For Overseas students the degree normally allows them to take positions with international property management companies or multi-national companies, again depending on the level of experience. The more successful students do go on to become Facility Directors in the public and private sectors.

Why study this degree at UCL?

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

This programme is accredited by: the Royal Institution of Chartered Surveyors (RICS) and the International Facility Management Association (IFMA). RICS provides free student membership to those joining the programme for the duration of their studies.

UCL Bartlett staff are assisted by distinguished external contributors and students gain a multi-disciplinary perspective in facility management.

Student / staff ratios › 25 staff including 10 postdocs › 100 taught students › 45 research students

Application and next steps

- Applications
Students are advised to apply as early as possible due to competition for places. Those applying for scholarship funding (particularly overseas applicants) should take note of application deadlines.

- Who can apply?
The programme is directed at facility professionals, as well as architects, service engineers, surveyors, building scientists, interior designers, management professionals and property administrators wishing to acquire a specialist qualification within facility management. It attracts participants from a wide range of professional backgrounds at all management levels, including office, healthcare, retail, education and residential.

What are we looking for?
When we assess your application we would like to learn:
- why you want to study Facility and Environment Management at graduate level
- why you want to study Facility and Environment Management at UCL
- what particularly attracts you to the chosen programme
- how your academic and professional background meets the demands of this challenging programme
- where you would like to go professionally with your degree

Together with essential academic requirements, the personal statement is your opportunity to illustrate whether your reasons for applying to this programme match what the programme will deliver.

For more information see the Applications page http://www.ucl.ac.uk/prospective-students/graduate/apply .

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The two year MSc programme Biosystems Engineering is for students with an (agricultural) engineering background on bachelor level that are interested to pursue a MSc degree in a field where the interaction between technology and biology plays an important role. Read more

MSc Biosystems Engineering

The two year MSc programme Biosystems Engineering is for students with an (agricultural) engineering background on bachelor level that are interested to pursue a MSc degree in a field where the interaction between technology and biology plays an important role.

Programme summary

During the master Biosystems Engineering, students are educated in finding innovative solutions. The programme combines knowledge of technology, living systems, natural and social sciences with integrated thinking using a systems approach. Solutions can be applied to either the field of food or nonfood agricultural production. During the programme, you develop independence and creativity while acquiring skills that enable you to analyse problems and work as part of an interdisciplinary team. Biosystems Engineering is a tailor-made, thesis oriented programme based on the specific interests and competencies of the student.

Thesis tracks

Farm Technology
This topic consists of four main themes, namely automation for bioproduction, greenhouse technology, livestock technology and soil technology. All these topics have the shared goal of designing systems in which technology is applied to the demands of plants, animals, humans and the environment. Examples of such applications include precision agriculture, conservation tillage, fully automated greenhouses and environmentally friendly animal husbandry systems that also promote animal welfare.

Systems and Control
Production processes and various kinds of machinery have to be optimised to run as efficiently as possible; and with the least amount of possible environmental impact. To achieve this, computer models and simulations are developed and improved. Examples include designing control systems for a solar-powered greenhouse to include a closed water cycle and designing a tomato-harvesting robot.

Information Technology
Information and communication play a vital role in our society. It is necessary to acquire, use and store data and information to optimise production processes and quality in production chains. This requires the design and management of business information systems, software engineering, designing databases and modelling and simulation.

Environmental Technology
Environmental technology revolves around closing cycles and reusing waste products and by-products. Processes have to be designed in such a way that they either reuse waste or separate it into distinct and reusable components. Examples include the production of compost, the generation of green energy or the design of environmentally friendly animal husbandry systems and greenhouses.

AgroLogistics
The goals of agrologistics are to get the right product in the right quantity and quality at the right time and to the right place as efficiently as possible while fulfilling the requirements of the stakeholders (such as government legislation and regulations). This requires the design of effective, innovative logistics concepts in agrifood chains and networks. Examples are the design of greenhouses developed for optimal logistics or designing a dairy production process with minimal storage costs.

Biobased Technology
The importance of biobased economy is increasing. Energy savings and the use of renewable energy are directions for achieving an environmentally sustainable industrial society. Biomass of plants, organisms and biomass available can be turned into a spectrum of marketable products and energy. In this track, you learn more about process engineering, biological recycling technology, biorefinery and how to abstract a real system into a physical model and analyse the physical model using dedicated software.

Your future career

Most graduates are employed in the agrofood sector, or related sectors of industry and trade, from local to international companies. They are project leaders, product managers, technical experts, sales specialists or managers at many kinds of companies including designers of agricultural buildings (animal husbandry systems, greenhouses) and bioenergy production systems. Others find jobs with IT companies (climate control computers, automated information systems) or firms in the agro-food chain that produce, store, process, distribute and market agricultural products. In the service sector or at governments, graduates enter careers as consultants, information officers or policymakers in the fields of technology and sustainable agricultural production, while others enter research careers at institutes or universities.

Alumnus Patrick Honcoop.
"I am working as a product manager at 365 FarmNet in Germany. 365FarmNet supports farmers to manage their whole agrarian holding with just one software application. I am responsible for the content of the software. I am the link between the farmers, the agrarian holdings and the software developers. I really enjoy these dynamics and variety within my function. Just like during my studies, when we visited farmers, companies and fairs during courses and excursions organised by the study association."

Related programmes:
MSc Animal Sciences
MSc Plant Sciences
MSc Geo-information Science
MSc Geographical Information Management and Applications
MSc Organic Agriculture

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About the course. -Accredited by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute. -Broaden your knowledge of environmental engineering, building design, energy efficiency and management. Read more
About the course:
-Accredited by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute
-Broaden your knowledge of environmental engineering, building design, energy efficiency and management
-Develop your leadership skills in environmental design and energy management
-Ideal for urban planners, architects, building services engineers, facilities managers and performance assessors

WHAT WILL YOU STUDY?

Sample modules:
-Energy in buildings
-Building Information Modelling
-ICT and energy management
-Sustainable design and management principles and practice
-Engineering project management

Please note that all modules are subject to change.

WHAT CAREER CAN YOU HAVE?

Depending on the programme, graduates may follow careers in a wide range of disciplines in the built environment and energy sectors. Examples include: cost management, quantity surveying, architectural and engineering design, project management, construction management, business management, environmental engineering, facilities management, building energy operation, green building assessment, BIM and CAD management, design management, energy management and energy policy.

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In recent years, biological research has become increasingly interdisciplinary, focusing heavily on mathematical modeling and on the analysis of system-wide quantitative information. Read more

Computational Life Science

In recent years, biological research has become increasingly interdisciplinary, focusing heavily on mathematical modeling and on the analysis of system-wide quantitative information. Sophisticated high-throughput techniques pose new challenges for data integration and data interpretation. The Computational Life Science (CompLife) MSc program at Jacobs University meets these challenges by covering computational, theoretical and mathematical approaches in biology and the life sciences. It is geared towards students of bioinformatics, computer science, physics, mathematics and related areas.

Program Features

The CompLife program is located at Jacobs University, a private and international English-language academic institution in Bremen, Germany. CompLife students at Jacobs University take a tailor-made curriculum comprising lectures, seminars and laboratory trainings. Courses cover foundational as well as advanced topics and methods. Core components of the program and areas of specialization include:

- Computational Systems Biology
- Computational Physics and Biophysics
- Bioinformatics
- RNA Biology
- Imaging and Modeling in Medicine
- Ecological Modeling
- Theoretical Biology
- Applied Mathematics
- Numerical Methods

For more details on the CompLife curriculum, please visit the program website at http://www.jacobs-university.de/complife.

Career Options

Graduates of the CompLife program are prepared for a career in biotechnology and biomedicine. Likewise, graduates of the program are qualified to move on to a PhD.

Application and Admission

The CompLife program starts in the first week of September every year. Please visit http://www.jacobs-university.de/graduate-admission or use the contact form to request details on how to apply. We are looking forward to receiving your inquiry.

Scholarships and Funding Options

All applicants are automatically considered for merit-based scholarships of up to € 12,000 per year. Depending on availability, additional scholarships sponsored by external partners are offered to highly gifted students. Moreover, each admitted candidate may request an individual financial package offer with attractive funding options. Please visit http://www.jacobs-university.de/study/graduate/fees-finances to learn more.

Campus Life and Accommodation

Jacobs University’s green and tree-shaded campus provides much more than buildings for teaching and research. It is home to an intercultural community which is unprecedented in Europe. A Student Activities Center, various sports facilities, a music studio, a student-run café/bar, concert venues and our Interfaith House ensure that you will always have something interesting to do.

For graduate students who would like to live on campus, Jacobs University offers accommodation in four residential colleges. Each college has its own dining room, recreational lounge, study areas, and common and group meeting rooms. Please visit http://www.jacobs-university.de/study/graduate/campus-life for more information.

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