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The global environmental and energy challenge facing current and future generations of architects and building professionals calls for a deeper understanding of the principles of environmental design, and their effective application into architectural practice worldwide. Read more
The global environmental and energy challenge facing current and future generations of architects and building professionals calls for a deeper understanding of the principles of environmental design, and their effective application into architectural practice worldwide. Over the last decades environmental design as a subject area has developed, responding to new research and experimentation, both in academia and in practice. However, buildings claiming to be environmentally conscious do not perform to the expected standards, still heavily contributing to global CO2 emissions and often providing unsatisfactory comfort conditions to occupants. The same can be said for the existing built environment which is largely outdated and underperforming, requiring urgent implementation of effective retrofit strategies. This is due to a lack of comprehensive performance prediction and feedback protocols, which are still not common practice in architectural design.

Course content

Students on this course will take a fresh critical look at this subject. Here you will gain the knowledge and tools to make informed design decisions based on post-occupancy feedback and performance analysis, towards a new paradigm of environmental architecture, which is environmentally and energy conscious, yet sensitive to the contextual and socio-cultural landscape we live in. You will learn environmental design methods which relate to the various stages of architectural design. You will be able to evaluate existing buildings and design new ones following a combined bioclimatic and building occupant focused approach. In the core design modules you will follow an evidence based design approach where the acquisition of specialised software and analytical tools will be directly applied to an evaluation or design project.

Architecture and Environment Design MScThis interdisciplinary and international course will provide you with skills that can be applied to diverse building typologies and global climatic, environmental and contextual issues. On completion of this course you will have a thorough understanding of the principles and methodology of environmental design and will develop critical thinking skills to challenge established practices. You will hold the knowledge and the practical tools to better understand existing buildings for retrofit and to design new ones – positively driving change in this field and moving towards a truly environmentally conscious architecture.

The course covers both the wider contextual and sustainable approach to environmental design, and the more technical aspects of environmentally and energy conscious building design and performance. As well as taught modules, you will take design-based modules where you will apply quantitative and qualitative analysis to the study of existing built environments and to new design projects.

Modules

The following modules are indicative of what you will study on this course.
-EVALUATION OF BUILT ENVIRONMENTS
-PRINCIPLES OF ENVIRONMENTAL DESIGN
-THEORY AND HISTORY OF ENVIRONMENTAL DESIGN
-ENVIRONMENTAL AND ENERGY MODELLING
-THESIS PROJECT

Facilities

The course is delivered at our central London Marylebone Campus, which is easily accessible by all forms of public transport. Design work is developed within dedicated studio spaces. In addition to an extensive CAD lab, a complete suite of 100 computers has been installed in the design studios to the highest specification and with all the latest software. Together, these facilities offer a wide range of drawing, graphics and video applications. The new Fabrication Laboratory includes state-of-the-art CAD-CAM equipment in shape of several 3D printers, laser-cutting machines and computer-controlled drilling machines. Metalworking and woodworking workshops, as well as other support facilities are also available. The course also has access to an environmental laboratory which contains a wide range of testing and monitoring equipment for assessing environmental conditions such as temperature, humidity, day-lighting, air velocity and sound; and surveying equipment. An Artificial Sky for the physical modelling and analogue simulation of daylighting is also under construction

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The Programme, entirely offered in English, prepares high-level professionals that can work in the field of the built environment, and in particular of high energy performance, low environmental impact buildings, thanks to a multi-disciplinary training and to the acquisition of specialist engineering skills. Read more

Mission and goals

The Programme, entirely offered in English, prepares high-level professionals that can work in the field of the built environment, and in particular of high energy performance, low environmental impact buildings, thanks to a multi-disciplinary training and to the acquisition of specialist engineering skills.

The Programme offers two tracks with specific characteristics:
- Architectural Engineering (offered in Lecco), giving students the ability to manage – and take part in – the integrated design process of complex construction projects;
- Building Engineering (offered in Milano Leonardo), giving students the ability to design, model and predict the physical, mechanical, and energy behaviour of complex building components and systems, services and structures.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/building-and-architectural-engineering/

Career opportunities

The Building and Architectural Engineer is a professional that can effectively practice in complex, multi-disciplinary and multi-scale projects, and in particular in the following fields:
- design of complex new buildings, in particular in the areas of technology, structures, energy efficiency and environmental quality;

- refurbishment and retrofit of existing buildings, in particular in the areas of technology, energy upgrade and structural consolidation;

- management of the multi-disciplinary, multi-scalar design process, with the help of specific design and information tools;

- technological innovation of building components and systems;

- advanced performance modelling of complex building components and systems, services and structures;

- management of global performances, with the goal of reducing the environmental impact of buildings.

More information on the programme website: http://www.ccsarcheng.polimi.it/

Presentation

See http://www.polinternational.polimi.it/uploads/media/Architectural_Engineering_Lecco.pdf
This track of the Master of Science in Building and Architectural Engineering trains Architectural Engineers that can manage and take part in the integrated design process of complex construction projects. An interdisciplinary approach to design and construction, and the related teamwork, are widely recognized as the essential tools to deliver buildings with high performances, reliable sustainability credentials, and a balanced life cycle cost.
The Architectural Engineer is a professional ready to work in complex, multidisciplinary and multi-scalar projects. The programme trains students through two parallel approaches:
- Giving them the tools, from the fields of both engineering and architecture, to be
effective members of design teams;
- Involving them in integrated studios where they can apply the principles of
integrated design to specific projects.

The programme prepares students to approach, among others, the fields of multiscale energy-efficient design, innovative construction technology and refurbishment of existing buildings, with a strong focus on the different scales of intervention (from the city and territory to the building and construction components). The programme is also strongly rooted in the European and Italian tradition which has created cities and buildings celebrated worldwide.

Subjects

- Architectural Design
- History of Architecture
- Building Physics
- Building Services
- Conservation
- Integrated Project Management
- Refurbishment and Energy Retrofit
- Structural Design
- Sustainable Building Technologies
- Sustainable Multidisciplinary Design Process
- Urban Design

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/building-and-architectural-engineering/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/building-and-architectural-engineering/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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The built environment is changing - the EU has set a target for all new buildings to be nearly zero-energy efficient by the end of 2020. Read more
The built environment is changing - the EU has set a target for all new buildings to be nearly zero-energy efficient by the end of 2020. This is your opportunity to get up to speed on the newest practices in designing energy efficient buildings and refurbishments.

Through case studies and fieldwork, you will analyse the latest energy efficiency innovations and renewable technologies applied to new buildings and those undergoing a retrofits. By examining contemporary passive houses, nearly-zero buildings and energy plus structures, you'll discover how the leading exemplars in this field achieve their efficiency performances. You'll also study the shortcomings in current building efficiencies - where they fall short in meeting their energy targets and how they can be improved with the resources available.

Your work will be shaped by cutting-edge research as you collaborate with specialists who help inform new Government regulations and policies. This will broaden your knowledge and help you forge contacts with the principal thinkers and leaders in the building performance sector.

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

Energy efficiency surveyors and specialists arealready in high demand, and the need for their expertise will continue to growas the industry faces tighter energy legislation. This demand should filterthrough to related professions in architecture, construction management andquantity surveying, where knowledge in this area will complement existingexpertise and give those at the start of their careers a significant advantagein the jobs market.

- Property Developer
- Architect
- Construction Manager
- Quantity Surveyor

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 take part in site visits to study the very latest energy efficient buildings in detail, examining their characteristics and design specifications first-hand.

Our University has strong research links to industry, including many of the organisations such as the Department of Energy and Climate Change and the International Energy Institute that drive the energy efficiency agenda forward. This will give you the chance to network with the leading thinkers sharing and share in their latest insights. You will also evaluate industry software and the methodologies used to assess and monitor building efficiency.

All of our teaching staff have practical experience as consultants in new builds and refurbishment. They are recognised nationally and internationally, and some are directly involved in regulation and research that influences the direction of the industry.

Your course will give you the commanding expertise to make you highly sought after as the industry responds to the growing demand for energy efficiency specialists.

Core Modules

Low to Zero Energy Buildings & Energy Efficient Building Systems
Gain a comprehensive understanding of the principals of low to zero energy buildings, focusing on their energy sustainability, fabric and systems such as lighting and heating.

Sustainable Refurbishment & Retrofit
Discover the techniques relating to sustainable refurbishment and retrofit, examining the design and detail of existing and pre-1900 structures.

Chris Gorse

Senior Lecturer

"New legislation is pushing for tightened building energy requirements over the next few years, so knowledge in this area is essential. Once the legislation is in place, the industry will have to rapidly upskill itself."

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

- Design Studios
You will be able to access our extensive studio facilities, which include workshops and computer modelling software to design and build projects.

- 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.

- Leeds Sustainability Institute
We offer the latest drone and thermal imaging technology to provide new ways of measuring and evaluating building sustainability.

- 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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See the department website - http://it.rit.edu/. The Internet has brought a new kind of democracy where all information is created equal. Read more
See the department website - http://it.rit.edu/

The Internet has brought a new kind of democracy where all information is created equal. No longer the sole province of experts and the traditional media, it has become grassroots, viral, and global. The sheer volume and lightning speed of information transfer has changed how the world communicates, educates, learns, and ultimately solves problems. As the Web and its related technologies evolve, users will need help in managing these new tools.

Graduate study in a computing discipline that only focuses on traditional computing approaches is not flexible enough to meet the needs of the real world. New hardware and software tools are continually introduced into the market. IT professionals must have a specific area of expertise as well as be adaptable and ready to tackle to the next new thing—or just as often, retrofit available technologies to help their users adapt to the latest trends. The MS in information sciences and technologies provides an opportunity for in-depth study to prepare for today’s high-demand computing careers. Companies are drowning in data—structured, semi-structured, and unstructured. Big data is not just high transaction volumes; it is also data in various formats, with high velocity change, and increasing complexity. Information is gleaned from unstructured sources—such as Web traffic or social networks—as well as traditional ones; and information delivery must be immediate and on demand.

As the users' advocate, IT professionals also need the critical thinking skills to problem-solve in a wide variety of computing situations, combined with an understanding of the needs of their audience. Just knowing how technology works is no longer enough. Today, computing professionals need to know how to make it all work.

The information sciences and technologies program addresses the Web systems and integration technologies, and the information management and database technology pillars, of the IT academic discipline, along with the additional option of discovery informatics. A special topics option is available to support the creation of a customized area of study. The program is offered full- or part-time, on-campus only.

Plan of study

The program consists of 30 semester credit hours of graduate study and includes four core courses, four or five track or domain electives (depending upon capstone option chosen), and either a capstone experience, thesis, or project.

- Track or domain electives

Students choose track or domain electives from the following tracks. With permission of the graduate program director, students may select the special topics track to fulfill the track or domain electives requirement. See the graduate program director for more information.

- Capstone options

Students may choose between a course-based capstone, a thesis, or a project that builds upon their domain study. The course-based capstone option is 3 semester credit hours. Students who choose this option are required to complete one additional track or domain elective. The thesis and project capstone options are both 6 semester credit hours.

International Students

International applicants whose native language is not English must submit scores from the Test of English as a Foreign Language. Minimum scores of 570 (paper-based) or 88 (Internet-based) are required. Applicants with a lower TOEFL score may be admitted conditionally and will be required to complete a prescribed program in English, along with a reduced program course load.

Additional information

- Prerequisites

It is expected that prospective students will have a background in fundamental information technology concepts including object-oriented programming, website development, database theory and practice, and statistics. Students without the necessary background should complete the prerequisites before applying to the program. However, bridge courses are available to satisfy the prerequisites.

- Bridge program

Students whose undergraduate preparation or employment experience does not satisfy the prerequisites can make up these deficiencies by completing prerequisite bridge courses as prescribed by the graduate program director. The bridge courses are not part of the 30 semester credit hours required for the master’s degree. Grades for bridge courses are not included in a student’s GPA if the courses are taken before matriculation; they are included if completed after matriculation. Since bridge programs can be designed in a variety of ways, the graduate program director will assist students in planning and course selection.

- Maximum time limit

University policy requires that graduate programs be completed within seven years of the student's initial registration for courses in the program. Bridge courses are excluded.

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The Renewable Energy programme was created to allow BEng graduates to achieve the educational requirements to become a Chartered Engineer under the Engineering Council’s UK-SPEC scheme. Read more
The Renewable Energy programme was created to allow BEng graduates to achieve the educational requirements to become a Chartered Engineer under the Engineering Council’s UK-SPEC scheme. The course is currently accredited by the Chartered Institute of Building Services Engineers (CIBSE) and the Energy Institute as suitable for further learning towards Chartered Status for engineering graduates. This accreditation has international acceptance under the Washington Accord. Please note that the programme is only suitable as further learning in conjunction with an accredited BEng programme.

Key benefits

- Accredited by the Chartered Institution of Building Services Engineers (CIBSE) on behalf of the Engineering Council for the purposes of partially meeting the academic requirement for registration as a Chartered Engineer.

- Accredited by the Energy Institute (EI) on behalf of the Engineering Council as further learning for the academic requirement for registration as a Chartered Engineer.

Visit the website: https://www.ulster.ac.uk/courses/course-finder/201617/renewable-energy-and-energy-management-9049

Course detail

- Description -

This course seeks to provide an opportunity for graduates and professionals to acquire knowledge of renewable energy and energy management, and to develop skills appropriate to its practice. To achieve this it seeks to increase capacity for understanding the theoretical concepts and socio-economic principles and techniques upon which renewable energy technologies and energy management strategies are founded. To this end, the course is designed to produce graduates who have an in-depth knowledge and understanding of the scientific, technological issues concerning energy systems.

- Purpose -

The programme seeks to develop graduates who will have the knowledge, insight and skills to lead programmes of change, new design or retrofit solutions that require the deployment of either or both energy efficiency measures and renewable energy technologies.

- Teaching and learning assessment -

All modules are delivered fully online through Ulster University's virtual learning environment. All modules are currently assessed by 100% coursework. The exercises include projects, essays, group discussion boards, blogs and online quizzes.

The dissertation is also assessed by a Viva which can be conducted via video call.

Career options

Students are encouraged to consider their career development throughout the course. The delivery mode gives the students the chance to obtain an MSc in a modern and relevant subject while still working and gaining experience. This combination has impressed employers and prospective employers. Student feedback states that “the impact of learning this course enabled them to improve their capacity to manage work, personal life and college workload at the same time.”, “Personally I feel more confident speaking with and more understanding about the area of renewable technologies. It has also helped me to improve curricular areas in engineering to introduce renewable technologies.”

The demand for well-educated energy engineers is increasing dramatically, with wide ranging opportunities in the field of renewable energy and energy management generally. Graduates from the Ulster Univerrsity are employed in interesting and diverse careers in fields related to energy both in the UK and worldwide. Many are employed as design consultants, while others have embarked upon careers in local government.

How to apply: https://www.ulster.ac.uk/apply/how-to-apply#pg

Why study at Ulster?

1. Over 92% of our graduates are in work or further study six months after graduation.
2. We are a top UK university for providing courses with a period of work placement.
3. Our teaching and the learning experience we deliver are rated at the highest level by the Quality Assurance Agency.
4. We are an international university with more than 2,000 international students from over 80 countries and Alumni from 121 countries.
5. More than 4,000 students from over 50 countries have successfully completed eLearning courses at Ulster University.

Flexible payment

To help spread the cost of your studies, tuition fees can be paid back in monthly instalments while you learn. If you study for a one-year, full-time master’s, you can pay your fees up-front, in one lump sum, or in either five or ten equal monthly payments. If you study for a master’s on a part-time basis (e.g. over three years), you can pay each year’s fees up-front or in five or ten equal monthly payments each year. This flexibility allows you to spread the payment of your fees over each academic year. Find out more by visiting http://www.ulster.ac.uk/learnyourway

Scholarships

A comprehensive range of financial scholarships, awards and prizes are available to undergraduate, postgraduate and research students. Scholarships recognise the many ways in which our students are outstanding in their subject. Individuals may be able to apply directly or may automatically be nominated for awards. Visit the website: https://www.ulster.ac.uk/apply/fees-and-finance/scholarships

English Language Tuition

CELT offers courses and consultations in English language and study skills to Ulster University students of all subjects, levels and nationalities. Students and researchers for whom English is an additional language can access free CELT support throughout the academic year: https://www.ulster.ac.uk/international/english-language-support

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This is the only programme of its kind in the UK, giving you high-level skills and training across the rapidly developing area of carbon capture and storage (CCS). Read more

Programme description

This is the only programme of its kind in the UK, giving you high-level skills and training across the rapidly developing area of carbon capture and storage (CCS).

Global energy demands are still rising, and fossil fuels remain central to meeting those demands in the medium term. CCS is a recognised solution to reducing CO2 emissions until fossil fuels are entirely replaced by renewable energy technologies.

With commercial trials under way, countries and industries are investing in this new technology. In the UK, all existing power stations must have a full-scale retrofit of CCS within five years of the technology being independently judged as technically and commercially proven.

This MSc draws on our world-class interdisciplinary academic research and the insights we have gained from projects involving our industrial stakeholders.

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

Programme structure

The MSc has two semesters of lectures and practical classes, followed by a research dissertation of up to 15,000 words. The programme includes industry guest lectures as well as opportunities for fieldwork and industry site visits to a range of locations.

Designed for graduates of engineering or geoscience-related subjects, the programme provides high-level skills and training in the entire value chain of CCS, including combustion, transport, geoscience and legal aspects.

Compulsory courses typically include*:
•Carbon Economics
•Carbon Capture and Transport
•Hydrocarbons (compulsory for students without a geoscience background)
•Carbon Storage and Monitoring
•Dissertation
•Geology for Earth Resources (compulsory for students without a geoscience background)

Option courses:

In consultation with the Programme Director, you will choose from a range of option courses*. We particularly recommend:
•Fundamentals for Remote Sensing
•Novel Strategies for Carbon Storage in Soil
•SeismicReflection Interpretation
•Energy & Society
•Geology for Earth Resources
•Principles of Geographical Information Science
•Spatial Modelling
•Understanding Environment and Development
•Climate Change and Corporate Strategy
•Energy Policy and Politics
•Hydrocarbon Reservoir Quality
•Introduction to Radar Remote Sensing
•Political Ecology
•Separation Processes For Carbon Capture
•Technology and Innovation Management

*Please note that courses are offered subject to timetabling and availability and are subject to change each year.

Career opportunities

Graduates can enter into all manner of jobs due to the transferable and highly desirable nature of the skills gained. However, typically our graduates pursue careers in business, industry, government and non-governmental organisations in the field of low-carbon energy production.

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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 throughout the globe or to take relevant, cutting-edge thinking about sustainable building design back to their own part of the world.

Degree information

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

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 multi-disciplinary 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. There are no additional cost to students for the field trip to the Centre for Alternative Technology.

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.

Top career destinations for this degree:
-Environmental Design Engineer, Neapoli
-Energy Consultant, XCO2 Energy
-Graduate Engineer, Arup
-Environmental Engineer, XCO2 Energy
-Sustainability Consultant, Arup and studying Environment Facility Management, University College London (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 and SAP. 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.

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.

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The Master of Studies (MSt) in Interdisciplinary Design for the Built Environment (IDBE) is a transformative part-time Master's course at the University of Cambridge, for global practitioners working in the built environment. Read more
The Master of Studies (MSt) in Interdisciplinary Design for the Built Environment (IDBE) is a transformative part-time Master's course at the University of Cambridge, for global practitioners working in the built environment.

Intensive, themed residential weeks deliver a bespoke learning experience, which develops individual and professional skills in multidisciplinary teamwork, the design process and individual research. For 20 years the course has been equipping our graduates with enhanced skills, knowledge and professional networks to solve the challenges facing our industry by becoming innovative, dynamic and successful leaders.

The MSt in IDBE is accredited as a Master's for further learning by:
- The Joint Board of Moderators (Institution of Civil Engineers, Institution of Structural Engineers, Chartered Institution of Highways and Transportation, Institute of Highway Engineers)
- The Royal Institution of Chartered Surveyors
- The Chartered Insitution of Building Services Engineers
- The Royal Institute of British Architects Advanced CPD

See the website http://www.ice.cam.ac.uk/mst-idbe

Who is the course designed for?

The course is aimed at practising professionals with at least three years' work experience in the built environment. It is open to architects, engineers, and all those involved in commissioning, design, construction and management. It is offered jointly by the Departments of Architecture and Engineering.

Aims of the programme

- To equip professionals for strategic decision making, inventive problem solving and team leadership
- To develop skills in effective collaboration and communication, particularly between clients, consultants, contractors, specialists and occupiers
- To provide a strategic overview of the production of the built environment including current challenges faced by the construction industry such as technological innovation, global climate change, resilience and sustainability.

Teaching and learning

The course is part-time and lasts for two years. During that time, students spend seven separate residential weeks studying in Cambridge at 3-4 month intervals.

Teaching blocks
Each of the residential weeks is based around a theme, such as:
- Interdisciplinarity
- The client, the user, and the design team
- Sustainable construction and climate change
- Personal development, teamwork, and leadership
- Conservation, retrofit, and adaptation
- Innovation, new technologies, and materials
- Urbanism, change, and future communities

Teaching on the course is delivered though a mix of lectures, workshops and seminars during the residential weeks. Each residential week comprises an intensive programme of formal lectures (from leading practitioners and university academics) workshops and seminars.

A design project relating to the theme of the week is undertaken in small interdisciplinary teams, which present their design proposals to reviewers at the end of each of the weeks. Through the design project students apply and implement what they have been taught, as well as benefitting from the knowledge and expertise of their team members; in this, the design projects support experiential learning.

Supervision and learning support

In preparing the four individual written assignments, students are supported by academic supervisors whom they meet on an individual basis. The assignments are progressive in that they help to build the capacity to write clearly and concisely, to reflect on experience, to undertake a formal literature review on a given topic, to frame research questions, to conduct an investigation involving the collection and analysis of data, and to draw evidence-based conclusions.

Contact time

- Lectures: 42 hours per year
- Seminars and classes: 15 hours per year
- Practicals: 45 hours per year
- Supervision: 8 hours per year

Assessment

- Thesis
Dissertation: 15,000 words maximum (including footnotes and appendices but excluding bibliography).

- Essays, projects and written papers
A reflective project study: 5,000 words maximum.
Two essays: 3,000 words maximum each, designed to support students' developing research and writing skills. The first focuses on conducting a literature review using academic references, and the second requires you to design and structure a ‘mini thesis’ involving some small individual research project.

- Practical
In six of the seven weeks students are asked to work in small multi-disciplinary groups to think, discuss, draw, write and persuade in order to come to a unified solution to the set problem over the course of a few half days. At the end of each week all teams present their solutions to their fellow students and a review panel of studio leaders and stakeholders.

- Other
Each student does a presentation on their case study (the first written assignment) to their fellow students and the Course Directors.
Feedback
Students are given formal feedback on their assignments and informal feedback throughout their course, including during supervisions. Supervisions also result in an annual progress report at the end of year 1 and termly reports during year 2.

See the website http://www.ice.cam.ac.uk/mst-idbe

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The Programme, entirely offered in English, prepares high-level professionals that can work in the field of the built environment, and in particular of high energy performance, low environmental impact buildings, thanks to a multi-disciplinary training and to the acquisition of specialist engineering skills. Read more

Mission and goals

The Programme, entirely offered in English, prepares high-level professionals that can work in the field of the built environment, and in particular of high energy performance, low environmental impact buildings, thanks to a multi-disciplinary training and to the acquisition of specialist engineering skills.
The Programme offers two tracks with specific characteristics:
- Architectural Engineering (offered in Lecco), giving students the ability to manage – and take part in – the integrated design process of complex construction projects;
- Building Engineering (offered in Milano Leonardo), giving students the ability to design, model and predict the physical, mechanical, and energy behaviour of complex building components and systems, services and structures.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/building-and-architectural-engineering/

Career opportunities

The Building and Architectural Engineer is a professional that can effectively practice in complex, multi-disciplinary and multi-scale projects, and in particular in the following fields:
- design of complex new buildings, in particular in the areas of technology, structures, energy efficiency and environmental quality;

- refurbishment and retrofit of existing buildings, in particular in the areas of technology, energy upgrade and structural consolidation;

- management of the multi-disciplinary, multi-scalar design process, with the help of specific design and information tools;

- technological innovation of building components and systems;

- advanced performance modelling of complex building components and systems, services and structures;

- management of global performances, with the goal of reducing the environmental impact of buildings.

More information on the programme website: http://www.ccsarcheng.polimi.it/

Presentation

See http://www.polinternational.polimi.it/uploads/media/Building_Engineering_01.pdf
This track of the Master of Science in Building and Architectural Engineers trains Building Engineers that can manage the complexity of building projects, through the application of engineering principles and tools to building design and construction. The programme
focuses on sustainability, energy efficiency and safety issues in the building sector, considering both horizontal (interdisciplinary) and vertical (life cycle-related) integration.
The Building Engineer is a professional with robust scientific and technical skills ready to:
• engineer the architectural design of complex, large and/or special buildings;
• supervise the design integration of all technological and technical parts (building fabric, structure, building systems);
• manage the whole manufacturing and life cycle of building systems and components;
• organize and control the construction and maintenance process.

More specifically, the Building Engineering programme provides students with knowledge and tools necessary to model the detailed physical and structural behaviour of building components and, in particular, of the building envelope, the filter between the interior and exterior environment. Hence, the Building Engineer is able to bring, into multidisciplinary design teams, the necessary skills to design innovative envelope components and assess the related performances in their service life.

Subjects

Some of the key subjects are:
- Engineering Design for Architecture
- Advanced Construction Materials
- Advanced Building Systems Engineering
- Structural modelling and analysis, design of structure
- Earthquake resistant design
- Advanced Building Physics
- Building Energy Modelling and Building Envelope Design
- Multiphysics optimization on Building Envelope

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/building-and-architectural-engineering/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/building-and-architectural-engineering/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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Shelter is one of the most basic human needs, but the provision of that shelter - the development of enough housing of the right type and quality in the most appropriate locations - is a challenge that few, if any, governments in the developed world have fully addressed. Read more
Shelter is one of the most basic human needs, but the provision of that shelter - the development of enough housing of the right type and quality in the most appropriate locations - is a challenge that few, if any, governments in the developed world have fully addressed. This MSc offers an interdisciplinary perspective on the 'housing question' in advanced economies, with core contributions from across the faculty.

Degree information

Students will develop appropriate design, analytical and presentational skills, and work on practical cases that test their capacity for creative thinking and problem-solving. The curriculum covers UK-specific policy and practice as well as a range of international case studies and globally relevant debates in the provision of housing.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (90 credits), two elective modules from across The Bartlett School of Planning or beyond, subject to approval (30 credits) and a dissertation/report (60 credits). A Postgraduate Diploma, six core modules (90 credits), two elective modules (30 credits), full-time nine months, is offered. A Postgraduate Certificate, four core modules (60 credits), at least full-time three months, is offered.

Core modules
-Planning for Housing: Process
-Planning for Housing: Project
-Principles of Sustainable Housing Design
-Low Energy Housing Retrofit
-Economics and Finance for Housing Projects
-Management of Housing Projects

Optional modules
-Spatial Planning (for professional accreditation)
-Critical Debates in Planning (for professional accreditation)
-Or any other open MSc module in The Bartlett School of Planning, or the wider Faculty of the Built Environment

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 10,000 words

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, projects and problem-based learning. Assessment is through a mix of essays, group projects, problem-sheets, individual projects, classroom tasks and the dissertation.

Careers

There is a growing demand for our Master's graduates from a wide range of both public and private employers in the UK and overseas. Many have taken up posts in local and central government planning, others have moved into planning related consultancies. Past students have also found employment in numerous specialist sectors: in housing and transport, planning, urban regeneration and environmental agencies, public and private utility companies, and also in teaching and research.

Employability
As well as preparing students for careers in planning practice and housing delivery, all of our programmes offer an introduction to research and to key research skills.

Why study this degree at UCL?

Based in the heart of London, students are at the forefront of policy-relevant critical debate, empirical study and research-led teaching. The academic staff are multidisciplinary and are actively involved in shaping the theories and debates covered in their teaching. Our annual public lectures attract pre-eminent speakers from around the world and our student body has a broad international profile.

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. The strong research focus across The Bartlett, and links to professional practice, feed into this programme, ensuring engagement with live issues and continual renewal of the subject material.

Students also have the opportunity to spend a period of the programme at a partner institution elsewhere in Europe, North America or Australia.

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This exciting new programme will equip professionals with the skills, knowledge and networks to drive sustainable innovation for health and wellbeing in the design, retrofit and operation of buildings. Read more
This exciting new programme will equip professionals with the skills, knowledge and networks to drive sustainable innovation for health and wellbeing in the design, retrofit and operation of buildings. Based within The Bartlett, the UCL Institute for Environmental Design and Engineering is a world-leading research centre.

Degree information

Students will focus on the role of the built environment in health and wellbeing within the context of the sustainability agenda; key design, engineering and public health principles; practical tools applicable in professional practice to sustainably support health and wellbeing in buildings; relevant benchmarking, modelling and monitoring methods; and approaches to creating a business case for healthy and productive buildings.

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 report (60 credits). A Postgraduate Diploma (120 credits, full-time nine months) is offered. The programme consists of six core modules (90 credits) and two optional modules (30 credits).

Core modules
-Health, Comfort and Wellbeing in the Built Environment
-Health and Wellbeing in Cities: Theory and Practice
-Indoor Air Quality in Buildings
-Integrated Building Design for Health, Comfort and Wellbeing
-Methods of Environmental Analysis
-Wellbeing in Buildings: Theory and Practice

Optional modules - students choose two of the following:
-Building Acoustics
-Designing Inclusive Places
-Light, Lighting and Wellbeing in Buildings

Dissertation/report
All students undertake an independent research project culminating in a 10,000-word report.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, interactive workshops, tutorials and lab demos. Assessment is through coursework, design reports, written examinations and a dissertation.

Careers

It is anticipated that students taking this programme will find employment in architectural and engineering companies and specialist consultancies dedicated to the design and/or evaluation of sustainable buildings with a strong focus on health, wellbeing and human performance (e.g. productivity). Additional career paths may be found within in-house building design and operational teams, and in public sector agencies concerned with built environment and/or health and wellbeing issues. The MSc can also provide a foundation for MPhil/PhD research.

Employability
The programme is designed with employability in mind. Students will, for example, use simulation tools similar to those used by commercial companies for thermal analysis or measuring indoor air quality. You will also gain hands-on experience of monitoring environmental conditions within buildings, and of gathering and evaluating occupant feedback. As awareness of the impact that the built environment can have on health, wellbeing and sustainability increases, so too does the demand for professionals with relevant expertise. Successful graduates will understand the factors affecting the business case for improved health, wellbeing and human performance in buildings.

Why study this degree at UCL?

The UCL Institute for Environmental Design and Engineering (UCL IEDE) has proven research and teaching excellence in built environment, sustainability and health research.

The UCL Bartlett is the UK's largest multidisciplinary faculty of the built environment, bringing together scientific and professional specialisms. Our high-achieving graduates are sought after by the biggest names in the built environment industry.

The degree facilitates networking with industry leaders, via an industry workshop and selected opportunities for industry-related dissertation projects.

Located in London, we are at the heart of a large cluster of creative architects and engineering firms and next to the UK's seat of government and finance. We offer unrivalled networking opportunities, with alumni employed throughout the major firms in London who often give lectures and attend networking events.

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This programme is appropriate for you if are seeking to develop the skills and confidence to address the critical global challenges of energy and diminishing natural resources. Read more
This programme is appropriate for you if are seeking to develop the skills and confidence to address the critical global challenges of energy and diminishing natural resources. Clean energy, optimal use of resources and the economics of climate change are the key issues facing society, and form the fundamental themes of this programme.

Course details

You explore the world’s dependency on hydrocarbon-based resources, together with strategies and technologies to decarbonise national economies. The course examines global best practice, government policies, industrial symbiosis and emerging risk management techniques. You also address the environmental, economic and sociological (risk and acceptability) impacts of renewable energy provision and waste exploitation as central elements.

The programme develops the problem-solvers and innovators needed to face the enormous challenges of the 21st century - those who can play key roles in driving energy and environmental policies, and in formulating forward-looking strategies on energy use and environmental sustainability at corporate, national and global scales.

What you study

For the PgDip award you must successfully complete 120 credits of taught modules. For an MSc award you must successfully complete the 120 credits of taught modules and a 60-credit master's research project.

Energy, environment, risk managing projects, sustainability and integrated waste management are the main foci of the programme, but you also explore the financial aspects of energy and environmental management. Economics is integral to the development of policies and is often a key influencing factor.

This programme aims to develop a comprehensive knowledge and understanding of the role and place of energy in the 21st century and the way the environment impinges on the types of energy used and production methods. It also aims to investigate the environment as it is perceived, and contextualise its actual importance to mankind. Specific objectives for this course are to establish the financial validity for the pursuit of alternative energy forms and management of the environment.

You are encouraged to take up opportunities of voluntary placements with local industries to conduct real-world research projects. These placements are assessed in line with the assessment criteria and learning outcomes of the Project module.

Examples of past MSc research projects:
-The taxonomy of facilitated industrial symbioses
-Assessment of the climate change impacts of the Tees Valley
-Exploring the links between carbon disclosure and carbon performance
-Hydrothermal carbonisation of waste biomass
-Quantifying the impact of biochar on soil microbial ecology
-Potential for biochar utilisation in developing rural economies
-Carbon trading opportunities for renewable energy projects in developing countries
-Exploring the potential for wind energy in Libya
-Demand and supply potential of solar panel installations
-A feasibility study of the application of zero-carbon retrofit technologies in building communal areas
-Energy recovery from abandoned oil wells through geothermal processes

Core modules
-Concepts of Sustainability
-Economics of Climate Change
-Energy and Global Climate Change
-Global Energy Policy
-Integrated Waste Management and Exploitation
-Project
-Research Methods and Proposal

Modules offered may vary.

Teaching

The course provides a number of contact teaching and assessment hours (through lectures, tutorials, projects, assignments), but you are also expected to spend time on your own, called 'self-study' time, to review lecture notes, prepare course work assignments, work on projects and revise for assessments. For example, each 20-credit module typically has around 200 hours of learning time.

In most cases, around 60 hours are spent in lectures, tutorials and in practical exercises. The remaining learning time is for you to gain a deeper understanding of the subject. Each year of full-time study consists of modules totalling 180 credits; hence, during one year of full-time study a student can expect to have 1,800 hours of learning and assessment.

Modules are assessed by a variety of methods including examination and in-course assessment with some utilising other approaches such as group-work or verbal/poster presentations.

Employability

There may be short-term placement opportunities for some students, particularly during the project phase of the course. This University is also in the process of seeking accreditation for the Waste Management module from the Chartered Institution of Wastes Management.

Successful graduates from this course are well placed to find employment. As an energy and environmental manager, you might find yourself in a role responsible for overseeing the energy and environmental performance of private, public and voluntary sector organisations, as well as in a wide range of engineering industries.

Energy and environmental managers examine corporate activities to establish where improvements can be made and ensure compliance with environmental legislation across the organisation. You might be responsible for reviewing the whole operation, carrying out energy and environmental audits and assessments, identifying and resolving energy and environmental problems and acting as agents of change. Your role could include the training of the workforce to develop the ability to recognise their own contributions to improved energy and environmental performance.

Your role may also include the development, implementation and monitoring of energy and environmental strategies, policies and programmes that promote sustainable development at corporate, national or global levels.

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As a postgraduate student in the Department of Civil and Environmental Engineering, you will have the opportunities to make a world of difference by building knowledge at the forefront of the field, helping minimize environmental hazards and improving the quality of people’s lives. Read more
As a postgraduate student in the Department of Civil and Environmental Engineering, you will have the opportunities to make a world of difference by building knowledge at the forefront of the field, helping minimize environmental hazards and improving the quality of people’s lives.

The Civil Engineering field is developing rapidly. Almost any solution to a societal problem has some connection with civil engineering. Such solutions include the development, utilization and control of resources for the benefit of people. Broad-based and in-depth knowledge of the discipline together with an understanding of new design concepts and technologies is essential for those who wish to become leaders in this part of the engineering profession. The Department's postgraduate programs seek to develop such knowledge and skills and to relate research efforts closely to the interests and needs of the society so that our research is relevant and has practical value. Postgraduates may concentrate in structural, environmental, geotechnical engineering, water resources, transportation, construction engineering or infrastructure development. The Department also participates in the Environmental Engineering program.

There are 31 full-time faculty members and around 150 postgraduate students in the Department.

The MPhil program focuses on strengthening students' knowledge in certain areas of Civil and Structural Engineering and exposing them to the issues involved in the conception, design, construction, maintenance, and use of structures and facilities. Students are required to undertake coursework and successfully complete a thesis to demonstrate competence in research.

Research Foci

The Department's research lies in four broad areas with many sub-groups within each:

Infrastructure Development and Planning
Building-system design and analysis, monitoring and analysis of highway bridges, wind and seismic engineering, geotechnical engineering and soil-structure interaction, construction materials, transportation system modeling and operation, integrated risk and reliability assessment, and infrastructure system enhancement.

Green Building and Sustainable Development
This is an interdisciplinary area, with projects including the development of green building design standards, eco-friendly materials and technologies, recycling of construction materials, green retrofit and renovation technologies, and optimization of energy and water usage.

Intelligent Construction Materials
Development of advanced composite materials, cement-based functional materials and sustainable cementitious materials, application of composite materials for infrastructure repairs, and nanotechnology in concrete design.

Environmental and Water Resources Studies
Innovative physical, chemical and biological water and wastewater treatment processes, environmental quality management, remediation of contaminated soils and groundwater, mixing and transport phenomena of pollutants in natural and man-made systems, water resources management and engineering, stochastic optimization of water quality and resources, environmental fluid mechanics.

Facilities

The Department supports an excellent range of facilities comprising laboratories for structural engineering, construction materials, geotechnical engineering, environmental engineering, fluid mechanics, intelligent transportation systems, computation, and surveying. All are equipped to the highest standards with advanced instrumentation available. The Geotechnical Centrifuge Facility is equipped with a hydraulic biaxial shaking table and a 4-axis robotic manipulator. The CLP Power Wind-Wave Tunnel Facility, which assists projects in construction industry and environmental studies, is also managed by the Department’s professors.

The University’s central facilities include an electronic support shop, instrumentation pool, machine shop, CAD/CAM laboratory and the Materials Characterization and Preparation Facility. HKUST also maintains state-of-the-art computing facilities.

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The Interdisciplinary Design for the Built Environment (IDBE) Master of Studies is a two year, part-time [University of Cambridge] degree which attracts candidates looking to expand their understanding of global challenges and opportunities facing the industry. Read more
The Interdisciplinary Design for the Built Environment (IDBE) Master of Studies is a two year, part-time [University of Cambridge] degree which attracts candidates looking to expand their understanding of global challenges and opportunities facing the industry. The programme equips professionals for strategic decision-making, inventive problem-solving and evidence-based design and provides the skills and confidence to support and lead interdisciplinary design teams.

From structural engineers to transport planners, design managers to architects, the IDBE has enhanced the careers of built environment professionals all over the world.

Who is the course designed for?

The course is aimed at practising professionals with at least three years' work experience in the built environment. It is open to architects, engineers, and all those involved in commissioning, design, construction and management. It is offered by the Cambridge Institute of Sustainability Leadership in association with the Departments of Architecture and Engineering.

Aims of the programme

To equip professionals for strategic decision making, inventive problem solving and team leadership
To develop skills in effective collaboration and communication, particularly between clients, consultants, contractors, specialists and occupiers
To provide a strategic overview of the production of the built environment including current challenges faced by the construction industry such as technological innovation, global climate change, resilience and sustainability.

Teaching and learning

The course is part-time and lasts for two years. During that time, students spend six separate residential weeks studying in Cambridge at 3-4 month intervals, as well as taking part in an online module.

Teaching blocks

Each of the residential weeks is based around a theme, such as:

Interdisciplinarity
The client, the user, and the design team
Sustainable construction and climate change
Personal development, teamwork, and leadership
Conservation, retrofit, and adaptation
Innovation, new technologies, and materials
Urbanism, change, and future communities

Teaching on the course is delivered though a mix of lectures, workshops and seminars during the residential weeks. Each residential week comprises an intensive programme of formal lectures (from leading practitioners and university academics), workshops and seminars.

A design project relating to the theme of the week is undertaken in small interdisciplinary teams, which present their design proposals to reviewers at the end of each of the weeks. Through the design project students apply and implement what they have been taught, as well as benefitting from the knowledge and expertise of their team members; in this, the design projects support experiential learning.

Supervision and learning support

In preparing the four written assignments (4,000 word case study; one 3,000 word essay, one 7,000 word group project; and a 15,000 word thesis in the second year) students are supported by academic supervisors whom they meet on an individual basis.

Contact time

Lectures: 42 hours per year
Seminars and classes: 15 hours per year
Practicals: 45 hours per year
Supervision: 8 hours per year

Assessment

Thesis

Dissertation: 15,000 words maximum (including footnotes and appendices but excluding bibliography).

Essays, projects and written papers

A reflective case study: 4,000 words maximum.
One essay: 3,000 words maximum.
One group project: 7,000 words maximum.

Practical

In the six course weeks, students are asked to work in small multi-disciplinary groups to think, discuss, draw, write and persuade in order to come to a unified solution to the set problem over the course of a few half days. At the end of each week all teams present their solutions to their fellow students and a review panel of studio leaders and stakeholders.

Continuation

To continue to read for the PhD degree following the course, students must achieve an overall total score of at least 70%. Continuation is also subject to Faculty approval of the proposed research proposal, and the availability of an appropriate supervisor.

In addition to the academic entrance requirement, applicants need to have at least three years of professional experience in the built environment since graduating.

Language requirement

IELTS Academic: Overall score of 7.5 (a minimum of 7.0 in each individual component)
TOEFL Internet: Overall score of 110 (a minimum of 25 in each individual component)
CAE: Grade A or B (with at least 193 in each individual element) plus a Language Centre assessment
CPE: Grade A, B, or C (with at least 200 in each individual element)

Sources of funding

Read about scholarship and bursary opportunities here:

http://www.idbe.arct.cam.ac.uk/applicants/scholarship-competition-and-bursary

Applications will be accepted online from 1 February 2017 until 30 June 2017.

For full information about the course, visit the CISL website:

http://www.cisl.cam.ac.uk/graduate-study/idbe

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The Construction Management program at Centennial College focuses on the study of the management and technological aspects of residential, industrial, commercial and institutional construction projects as well as engineering and infrastructure construction. Read more
The Construction Management program at Centennial College focuses on the study of the management and technological aspects of residential, industrial, commercial and institutional construction projects as well as engineering and infrastructure construction.

Construction Management courses provide practical training for you to acquire a unique combination of construction and project management skills in conjunction with the added dimension of protecting the environment and sustainability.

This program integrates a modular design with a principal focus on construction management and an ancillary focus on general project management in a construction environment.

Career Opportunities

Program Highlights
-There is a focus on protecting the global environment, energy conservation and international sustainable construction strategies.
-Emphasis on domestic and international sustainability and green building distinguishes this offering from other construction management programs.
-The curriculum includes construction management information systems, scheduling, procurement, legal documents and contracts, cost estimation, and analysis and construction safety.
-Comparisons of international building codes and construction practices are presented.

Professional Associations
Centennial College Construction Management program graduates will have completed six of seven educational competencies required to become a Registered Builder with Tarion.

Career Outlook
-Project manager
-Coordinator
-Estimator
-Site manager
-Inspector

Areas of Employment
The construction building industry is a key sector in Canada's economy. Currently, the Canadian government, at all levels, is establishing funding initiatives to encourage growth and restore confidence in the economy. These programs are intended to stimulate housing construction and build infrastructure. Recent housing-related funding announcements that will allow you to work in a range of areas include:
-Investments in housing for Canadians
-Renovation and retrofit of social housing
-First Nations housing
-Northern housing
-Housing for low-income seniors and persons with disabilities
-Helping municipalities build stronger communities

These projects indicate there are a wide variety of career opportunities in the construction sector.

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