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Masters Degrees (Building Design)

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A unique and innovative MSc with a three-month professional placement. The MSc Modern Building Design provides students with the knowledge of modern building design practice, methodologies and processes that are increasingly sought after by major engineering and design consultancies. Read more
A unique and innovative MSc with a three-month professional placement.

The MSc Modern Building Design provides students with the knowledge of modern building design practice, methodologies and processes that are increasingly sought after by major engineering and design consultancies. It places emphasis on the key engineering and modelling challenges faced during the building design process and prepares students for industry, providing them with the practical and interpersonal skills to stand out to potential employers in a highly competitive market.

This unique and innovative 15-month full-time programme has three core components:
- a taught element, consisting of eight units
- a professional practice placement, where students apply low-carbon building strategies and methodologies from their taught component to establish the industrial impact of their dissertation ideas
- a research dissertation based on a real consultancy project and informed by their industrial placement experience.

We are dedicated to helping you find a placement in industry. We will support and guide you in your applications but cannot guarantee you a position. If you are unable to secure a placement, you will transfer on to our 12-month alternative programme and graduate with an MSc in Low-Carbon Building Design.

Visit the website http://www.bath.ac.uk/engineering/graduate-school/taught-programmes/modern-building-design/index.html

Learning outcomes

You will develop the hard and soft skills required by professionals working in key carbon-dominated built environment sectors, with the ability to demonstrate an understanding of carbon management of the built environment in practice. The taught element of the programme focuses on student professional development through the design process that is mapped to the 2013 RIBA (Royal Institute of British Architects) plan of work for multidisciplinary working. In particular, you will gain:

- trans-sector skills required by the construction industry, with a focus on employability
- a detailed knowledge of the design tools and strategies that comprise modern design processes
- the capability to demonstrate initiative and originality within the scope of low-carbon modern design strategies, planning and management
- the skills to formulate research projects in real carbon management and low-carbon buildings, independently and in professional multidisciplinary design teams.

Structure

A full list of units and descriptions can be found on the programme catalogue (http://www.bath.ac.uk/catalogues/2015-2016/ar/ar-proglist-pg.html).

Semesters 1 & 2 (October – June)
The first two semesters consist of eight taught units, co-designed and co-taught with employers. They provide a foundation in the most significant issues related to working in key carbon-dominated built environment sectors and professional development. Each unit comprises lectures, tutorials, practical classes and workshops alongside time for personal study. Assessment is by a combination of coursework and oral examination.

Semester 3 (July – September)
The third semester consists of a three-month professional practice placement. Workshops during the first two semesters will help you improve your employability and prepare you to undertake a placement at one of our partner companies. Assessment is by report and presentation to your placement employer.

Or, if you pass all taught units with an overall average of at least 50% but are unable to go on placement for any reason, you will transfer on to our 12-month programme. You will spend the third semester undertaking your research dissertation and, on successful completion, will graduate with the award of MSc in Low Carbon Building Design.

Semester 4 (October – December)
The final semester consists of a research dissertation. This provides a start-to-finish research experience to embed the research and professional knowledge gained throughout the programme. It builts on the skills acquired in the taught component and is informed by the needs of your industrial placement provider.

Placement

A three-month professional placement is an opportunity for you to learn from our industrial partners. We guarantee to find enough suitable vacancies for all our students but cannot promise that you will be placed as this also depends on your performance at interview. With this in mind, our dedicated Placements Team runs workshops on CV-writing and interview techniques to support you during the application and interview process.

We have links with a large number and variety of organisations offering placements both in the UK and further afield.

- Labox:

“We are a design led multidisciplinary architectural practice specialising in individual site and client specific projects with a strong emphasis on energy efficiency as a means of improving quality of life. We strongly believe that everyone involved in the project is vital, and for a successful end result the technical information that we provide has to be accurate and very well considered. This means, that must be produced by well informed, interested and capable people who understand what they are trying to achieve and why. I would hope that someone who has completed this MSc would have the global vision that we are looking for.”

Career Opportunities

Engineering consultancies and multidisciplinary design consultancies are seeking graduates with knowledge of modern building design. This programme has been developed in conjunction with employers to ensure it provides the range of skills and experience they are looking for when they recruit and, as a result, graduates of this programme should be highly employable.

The Department of Architecture & Civil Engineering has an excellent reputation for employability, and has a strong link with local, national and international employers.

The Department also has links with the Building Research Establishment (BRE) through the BRE Centre of Innovative Construction Materials (http://www.bath.ac.uk/ace/research/cicm/index.html). PhD and other research students conduct research into innovative construction materials, and it is anticipated that the top graduates of MSc Modern Building Design will have the opportunity to further their studies through the PhD programme at Bath should they want to.

Industrial Partners

The programme is co-developed and co-delivered with a number of employers and partners in Architecture & Civil Engineering, including:

ADP
AECOM
AFL Architects
ARUP
Atkins
Balfour Beatty
BDP
Buro Happold
Digital Node
Expedition
Foster & Partners
Keep Architecture
Mott MacDonald
OPS Structures
Pozzoni Architecture
Skanska
WSP
Wiltshire Council

Apply online here - https://www.bath.ac.uk/study/pg/applications.pl#ace

If you're interested in this course, why not sign up for our Modern Building Design MOOC. Our free online course runs for three weeks from 27 February: https://www.futurelearn.com/courses/modern-building-design

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Our Masters in Sustainable Building Design (MSc SBD) programme is aimed at graduates of architecture, design or planning subjects who wish to further develop their design skills to combine sustainability and low carbon technologies in building design and renovation. Read more
Our Masters in Sustainable Building Design (MSc SBD) programme is aimed at graduates of architecture, design or planning subjects who wish to further develop their design skills to combine sustainability and low carbon technologies in building design and renovation. Participants in this programme will enhance their design skills with specialist technical knowledge, and develop multidisciplinary understanding, via a curriculum of applied, engaged and contemporary courses. You will learn to harness technology to deliver optimal solutions, balancing the individual competing needs for environmental, economic, social and cultural sustainability.

A culturally-adaptable approach to design places our graduates in a strong position to compete in local and international markets. This is a truly cross-disciplinary course providing unique grounding for a collaborative industry.

The programme will enhance students’ future career prospects in the area of sustainable design, in a competitive, growing market. It is also suitable for those looking to develop specialist knowledge and skills to allow them to change or further their careers.

Programme Content

• Low Carbon Building
• Climate Change, Sustainability & Adaptation
• Ventilation & Air Conditioning
• Water Conservation
• Human Factors of the Built Environment
• Building and Energy Systems
• Environmental Design
• Modelling for Sustainable Building Design

Career Opportunities

Graduates with skills in sustainable design are sought after by large and small employers, designers, consultants, contractors and clients, for their ability to integrate sustainable and low-carbon approaches within building design. Our graduates are well-equipped to make design decisions, which meet the needs of building users today, but also preserve resources for future generation.

Flexible study options

This programme can be studied full-time, part-time or via Independent Distance Learning (IDL), ideal for those in employment or with other commitments, providing flexible study options that fit around work or family. As an IDL student you will not be required to attend any lectures, tutorials or other events at any of Heriot-Watt University’s campuses, and you can also arrange to sit examinations in a location close to you.

Those who are close to our Dubai Campus will, in addition, benefit from our local support in the form of dissertation supervision and access to licensed software programmes and subscribed literatures, depending on availability.

Professional recognition

Heriot-Watt's Sustainable Building Design MSc has been accredited as a further learning programme at the postgraduate level to meet the academic requirement for Chartered Engineers (CEng, UK) by both the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute (EI) and also for Chartered Environmentalist (CEnv UK) by the Energy Institute.

English language requirements

If English is not the applicant’s first language a minimum of IELTS 6.5 or equivalent is required with all elements passed at 6.0 or above.

Applicants who have previously successfully completed programmes delivered in the medium of English language may be considered and will be required to provide documentary evidence of this. Examples would be secondary school education or undergraduate degree programme. A minimum of at least one year of full time study (or equivalent) in the medium of English language will be required.

We offer a range of English language courses to help you meet the English language requirement prior to starting your masters programme, for more information see http://www.hw.ac.uk/study/english.htm

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Solent’s MSc Sustainable Building Design course is the ideal way for students from a wide range of academic backgrounds to pursue a career in this exciting and important sector. Read more

Solent’s MSc Sustainable Building Design course is the ideal way for students from a wide range of academic backgrounds to pursue a career in this exciting and important sector. By providing you with a thorough understanding of both theory based and practical skills, you’ll graduate from this course as a specialist designer with the education and vision required to help create a sustainable future for the construction industry.

Throughout the course, you’ll be encouraged to develop a holistic approach to reducing the carbon footprint created by buildings. Learning is centred around social, economic, and environmental aspects of design, otherwise known as the three pillars of sustainability. The curriculum introduces the essential academic theory that underpins each of these areas and explores the technical tools required to successfully plan performance-based building projects.

You’ll also be introduced to Building Information Modelling (BIM)– working with an expert course team on a range of practical projects that simulate real workplace practises. These projects will help you to build a portfolio of practical work and introduce you to the essential tools and software packages used by the industry. You’ll also develop an understanding of globally renowned energy assessment methods such as BREEAM, LEED and Passivhaus.

The BRE Academy recognises the high level of real-world teaching at Solent. This means students on this course will be eligible to be fast-tracked to take the BREEAM AP qualification, and at a reduced fee. The qualifying period of three years’ work experience will also be waived. 

The course benefits from extensive links with industry, formed over many years of delivering accredited courses with professional organisations (e.g. CIAT, CIOB, SBID and CABE). Practitioners from a cross-section of the built environment industry contribute regularly to the academic process by providing real-world projects, guest lectures, site visits and informal mentoring sessions.

What does this course lead to?

Sustainable building design is a fast growing area, offering potential for employment in small, medium, and large companies. Graduates from this course will be able to take up roles as sustainable building designers, sustainability champions, strategic advisors, BIM managers/coordinators, or project managers for environmentally led collaborative projects. The course could also open the door for further research opportunities at PhD level.

Who is this course for?

Solent’s postgraduate sustainable building design programme is ideally suited to candidates from a wide range of related disciplines.

The curriculum is designed to be creative and inclusive, providing students with the opportunity to undertake a dissertation of a technical nature, or a design-based piece of final major project work.

Facilities

Students will have access to specialist studio spaces, high-spec computers and a range of essential industry software packages. University-wide services include excellent learning resources, campus-wide wireless networking, extensive library services and dedicated student working spaces.

Industry links

The course benefits from extensive links with industry, formed over many years of delivering accredited courses with professional organisations (e.g. CIAT, CIOB, SBID and CABE). Practitioners from a cross-section of the built environment industry contribute regularly to the academic process by providing real-world projects, guest lectures, site visits and informal mentoring sessions.

Students will also have the opportunity to study towards becoming a BREEAM Accredited Graduate, a qualification offered in collaboration with the Building Research Establishment (BRE) Academy. The BREEAM AG scheme, which is taught alongside the main course at no extra cost to students, is a first step to becoming BREEAM Assessor.



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About the course. Read more

About the course

This innovative course is for people who wish to understand the ways new and renewable energy can be harnessed in buildings, who wish to gain the ability to undertake the simulation and modelling tasks which are essential for credible building performance analysis, and acquire the ability to work creatively within a multidisciplinary design team.

The need for sustainable approaches to building design is universally acknowledged. As the effects of climate change are felt, the drive towards more energy efficient buildings is intensifying. Sustainable buildings need not be technologically complex but a high level of sophistication in design procedures and performance analysis is required.

The course has an interdisciplinary approach that gives a broad insight into energy and sustainability issues, and in-depth knowledge of the computer modelling techniques that are used in the design of modern sustainable buildings.

The course has been approved 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;

• 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

• Accredited by CIBSE and the Energy Institute

ensuring you will benefit from the highest quality teaching, and graduate with a recognised qualification

• Interdisciplinary teaching

develop a broad insight in to energy and sustainability issues, with in-depth knowledge of computer modelling techniques for the design of modern sustainable buildings

• Excellent graduate career prospects

graduates of the programme have gone on to work for the European Commission, Mott MacDonald, WSP Group, WYG, and Arup; as well as a variety of other energy and environmental consultancies, central and local government and multinational organisations

• 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

Course Structure

Modules

The MSc has been designed to offer flexibility, with attended or distance learning study available and a range of possible awards from a full MSc to a single module. Modules studied:

• Sustainable Development

• Sustainable Buildings

• Sustainable Energy

• Building Physics

• Building Performance Modelling

• Energy Analysis Techniques

• Study Skills and Research Methods

• Dissertation

Optional modules

• Leading Change for Sustainability

• Low Impact Manufacturing

• Green Business

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. All teaching material is fully documented and available on the web-based virtual learning environment (VLE) before timetabled events take place.

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. Our course has been commended in an academic quality review for its “innovative and sophisticated forms of e-based learning and teaching”.

All assessment is by coursework. Each taught module has two items of coursework. The first is a smaller assignment for which feedback is given while the module is being studied. A second, major assignment is due at a later date 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 increasing drive towards low carbon and sustainable solutions in the built environment has introduced a need for built environment professionals who can take a holistic view of the sustainability debate. Read more

The increasing drive towards low carbon and sustainable solutions in the built environment has introduced a need for built environment professionals who can take a holistic view of the sustainability debate. This programme will combine the technical design and engineering issues associated with the delivery of sustainable built environments with an appreciation for how such approaches can be justified in a commercially focused world. The programme considers passive (building fabric) and active measures (building services and renewable energy technologies) setting out what approach may be taken when considering new build or, as is becoming increasingly important the existing building stock.

Students will gain the skills needed to assess these options on a whole life basis with an appreciation for how the financial and business case can be made for such approaches.

The programme is closely linked with the schools Sustainable Built Environments Research Group (SBERG) and will be informed by the cutting-edge research carried out by the group considering technical, behavioural and social issues associated with the delivery of sustainable built environments. The University of Greenwich is a Passive House Examination Centre and students can gain extra certification as a Passive House Designer/Consultant by taking the programme.

Outcomes

The aims of the programme are to:

  • Develop skills and understanding around the principles of sustainable building with a view to delivering healthy, comfortable, efficient and environmentally friendly buildings
  • Consider how the above issues can be applied when working with existing buildings
  • Take the technical knowledge gained and working within a commercial world to produce convincing and robust business cases for implementing sustainable solutions.

Facilities

The university has invested £76 million in a new building to house the campus library, TV studios and academic facilities for disciplines including architecture, design and construction. Stockwell Street, where the programme will be delivered, is a short walk from the university's buildings on the Old Royal College site.

Full time

Year 1

Students are required to study the following compulsory courses.

Students are required to choose 20 credits from this list of options.

Assessment

Students will be assessed through: 

  • Project and other coursework 
  • presentations 
  • Examination (in a limited number of courses)
  • A dissertation.

Careers

Graduates can pursue opportunities in the design or engineering professions as consultants or in other professional roles in private practice, government agencies, local authorities, development agencies and other large estate holders.



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The Integrated Building Systems Design and Operation MSc offers a thorough grounding in the science and engineering of integrated building systems. Read more

The Integrated Building Systems Design and Operation MSc offers a thorough grounding in the science and engineering of integrated building systems. Drawing upon the world-leading research conducted in this field at The Bartlett’s Institute for Environmental Design and Engineering, and exploiting strong industry links, it provides students with the knowledge and skills to be able to excel in relevant industry roles or pursue research at the doctoral level.

About this degree

The programme is informed by the latest research and the evolving needs of the industry. You will learn about integrated building design, advanced modelling and simulation, energy management systems, and performance evaluation. You will develop the expertise to utilise hard-edged engineering methods and quantitative and qualitative tools to test and evolve your designs, integrating quantitative performance considerations.

Students undertake modules to the value of 180 credits.

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

Core modules

  • Building Systems Physics
  • Engineered Environmental Elements
  • Building Systems Modelling and Energy Management Systems
  • Building Systems Development and Operation
  • Integrated Building Systems Simulation
  • Integrated Building Design for Health and Wellbeing

Optional modules

  • Indoor Air Quality
  • Light, Lighting and Wellbeing in Buildings
  • Multi-Objective Design Optimisation
  • Building Acoustics
  • Post-Occupancy Evaluation
  • Low-Energy Housing Refit

The list of optional modules is correct for the 2018/19 academic year. Enrolment on modules is subject to availability.

Dissertation/report

All students undertake an independent research project whch culminates in a 10,000-word dissertation.

Teaching and learning

The programme is delivered through a combination of lectures, seminars, tutorials, problem-based learning, hands-on laboratory sessions and project work. Assessment is through a combination of methods; written coursework, group work with a design component, individual and group-based project work, unseen examinations, and by dissertation.

Fieldwork

Students will have the opportunity to participate in a field trip in term one which will include a mix of workshops, seminars and team building activities. 

Students will have the opportunity to participate in site visits throughout the duration of the programme.

The costs of the field trip are covered by the department. Site visits that are within the Transport for London area and which are optional may incur additional transport costs.

Further information on modules and degree structure is available on the department website: Integrated Building Systems Design and Operation MSc

Careers

Successful graduates will be equipped with the skills and knowledge required for engineering and specialist roles in companies that provide engineering, design, planning and consulting services.

Companies that specialise in building services engineering, operations, building controls and energy systems, as well as high-tech companies seeking to deliver disruptive solutions and digital innovation in the built environment will be particularly interested in employing this programme’s graduates, as will public sector agencies and government departments concerned with the built environment, resource efficiency, and energy management.

The programme provides an ideal foundation for further doctoral and industrial research pathways and can lead to a career in research. 

Employability

You will gain strong core knowledge and hands-on experience with monitoring and energy management systems, and applying industry standards. You will use simulation tools including EnergyPlus, DesignBuilder or IES<VE>, and will become familiar with modelling languages like Modelica. These skills are highly sought after in industry.

An advisory group provides guidance to ensure content and project briefs are relevant to industry needs. Guest lecturers will be drawn from industry.

You will gain the confidence to undertake large interdisciplinary projects with many unknowns and uncertainties, learning to coordinate work, integrate across disciplines, and make balanced decisions, thus preparing you for professional life.

Why study this degree at UCL?

The MSc in Integrated Building Systems Design and Operation (IBSDO) offers exceptional university graduates the opportunity to become experts in this innovative and developing discipline. We aspire to generate leaders in technology, delivering high-performance engineered solutions in building systems design.

The IBSDO MSc is delivered by the UCL Institute for Environmental Design and Engineering (IEDE), building upon strong links with industry and multidisciplinary research undertaken at The Bartlett. Teaching is delivered at the Bloomsbury campus and UCL’s new Here East facility in East London: you will benefit from access to the creative hub in Here East and access to modern lab spaces and equipment. 

Accreditation

Accreditation will be sought by the Chartered Institute of Building Services Engineers (CIBSE) as suitable "further learning" to meet the academic requirements for Chartered Engineer (CEng) status.

Research Excellence Framework (REF)

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

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



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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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This programme is grounded on the belief that architects should be thinking well beyond the constraints of market forces and the traditional disciplinary limits of the profession, towards forms, technology and spaces for a more sustainable future. Read more
This programme is grounded on the belief that architects should be thinking well beyond the constraints of market forces and the traditional disciplinary limits of the profession, towards forms, technology and spaces for a more sustainable future. This is a student-led programme, and you can have very different experiences within it depending on the choices of studios and courses you make.

Why choose this course?

Founded in 1927, the School of Architecture at Oxford Brookes has established an international reputation for the quality of both its research and its teaching. As one of the largest architecture schools in the UK, with around 600 students and 70 staff, it plays a leading role in defining the national, and international, agenda in design education and research. The school enjoys an international reputation in research, in areas ranging from sustainable design to modular buildings and from design for well-being to vernacular architecture.

Staff in the school regularly secure research funding from the UK's research councils and the European Union as well as industry, with an annual research grant income averaging £1m in recent years. This programme provides RIBA/ARB Part 2.

Professional accreditation

Accredited by the Royal Institute of British Architects (RIBA) and the Architects Registration Board (ARB).

This course in detail

Year 1 - Research into design
This year has a very strong emphasis on acquiring in-depth knowledge of an architecturally important field of study and utilising that knowledge in design. This is achieved by taking one of the six 'design specialisations'.

You choose which design specialisation is best for you. The specialisations on offer are deliberately highly diverse to cater for the changing nature of the profession in practice. This course produces graduates for the global market and as such requires a high level of commitment from staff and students.

The design specialisations are:
-Advanced Architectural Design
-International Architectural Regeneration and Development
-Development and Emergency Practice
-Sustainable Building: Performance and Design
-Research-led Design
-Urban Design.

Each of the research specialisations offers teaching from experts within that subject area, and links, through teaching focus and staff, to the five research clusters that are an invaluable resource within the School of architecture.

The five research clusters keep the specialisations at the cutting edge in terms of a global agenda. They are, in general terms, environmental design, technology, development and emergency practice, humanities and architectural design.

Each of the design specialisations include a design project or projects, to which you will apply your detailed learning.

In addition to the design specialisation the first year will, through the Research Philosophy for Design module, widen your thinking in terms of what constitutes research, test your critical thinking and improved your analytical abilities. All of these are essential tools and their enhancement will place you in a stronger position to undertake the design studio in the second year.

Your ability to represent your ideas in a coherent and focused manner is the remit for the Representation module. This module will identify your strengths and build up your weaknesses, both in terms of visual and verbal communication methods. You will be able to dedicate time to fine-tuning techniques or building from basics in sketching, model making, 2D and 3D CAD. Your presentation of methods and actual practice will enable you to build confidence in verbal communication skills.

The Management, Practice and Law module in year one looks at the landscapes within which these issues are being informed. This module is taught by practising architects who have first-hand experience of the issues under discussion. Through a series of workshops you will work on topics that are essential to the practice of architecture. Management, practice and law is part of the design delivery of the programme and you will be expected to approach the coursework from a design position. This module asks that you approach this subject with a very different mind-set than the traditional position.

Due to the diverse and preparative basis of this year it is compulsory for all students to pass all compulsory components of the Research into Design year in order to be progress to the Design and Technology year.

Year 2 - Design and technology
This year is structured to enable you to synthesise a broad range of complex cultural, aesthetic, research and technical factors, and design-specialisation learning, into your major design project and portfolio.

The year is spent participating in one of six design studios. All studios have control over their own programme of projects, and each has a different view of architectural culture and promotes different design methods. The design studios are taught by some of the brightest designers and tutors in the country and consequently their programmes demand high levels of creative and intellectual endeavour from you, as well as high levels of productivity. Their aim is to raise your design thinking, skills and production to the highest possible standard.

All six units present their projects for the year in the induction session and you are asked to select all six in order of preference. This system is to allow for an even distribution of students across all six units. Most students are allocated to their first choice of studio although there is no guarantee of a particular design unit - normally at worst you are allocated your second choice.

During the design and technology year, your design work must develop into technically ambitious architecture and be the subject of your compulsory Advanced Technology for Design module. This module designs through technology and fully complements and parallels your work in the design studio. There is a very strong emphasis here upon the creative possibilities for architectural technology. We ask for an open and experimental approach to technology, but also a clear understanding of its context and aims.

The staff delivering the teaching in the design studio unit and the Advanced Technology for Design module are made up from academics and practitioners. This energetic mix will challenge you to think about design and technology in a new manner, building confidence in ability, enabling deep thinking, and aiding you to define a personal design spirit.

Sitting alongside the design and technology is the second Management, Practice and Law module. This module builds on the learning and skills from the first year module and prepares you for stepping back into practice. As in the first year module this is learning is delivered by practicing architects. Through focus groups with architectural practices, this module figures in the skills that are seen as highly desirable for the ARB part 2 graduate to have when seeking employment.

Throughout the two years of the programme there will be interim reviews. This offers an opportunity to receive feedback from outside of your design studio or design specialisation. We have strong links with practice and architectural institutions and can attract the most able people to sit on our reviews.

This is a programme that aims to give you the skills for international practice.

As our courses are reviewed regularly, modules may vary from those listed here.

Teaching and learning

The unique nature of the Applied Design in Architecture offers you the opportunity to select an individual pathway that will create a distinctive graduate profile that is unique to you alone.

The ability to choose modules from within design specialisations offers you the prospect of defining your own position. You will find that you are being taught with, in most cases, direct entry master's students from countries around the world.

This aspect is complemented by the Year 2 design studio where you will engage with a distinctive agenda and experience a diversity of design specialisation thinking from students within your unit.

Self-directed learning is highly supported by staff in the School of Architecture. Personal choice engenders motivation and a high level of commitment, and the programme has been designed to embrace this aspect whilst clearly building on skills, thinking, application and design production to achieve a final portfolio of the highest standard.

Careers and professional development

The modules Management Practice, and Law 1 and 2, include guidance on the necessary professional skills that are required both for ARB Part 2 and for preparation in commencing ARB Part 3. The design studio generates a portfolio of work that not only demonstrates the learning for ARB Part 2 but also written, research and visual skills. The design portfolio is intended as the vehicle for students to synthesise all facets of their learning in order to seek practice employment.

In addition the school maintains a jobs wall that advertises vacancies locally, nationally and internationally.

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This programme is aimed at graduates of building services engineering and other science and engineering disciplines who wish to extend their technical expertise in the field of building services engineering. Read more

This programme is aimed at graduates of building services engineering and other science and engineering disciplines who wish to extend their technical expertise in the field of building services engineering. With energy consumption within the design and operation of buildings becoming an ever increasingly important factor this programme is designed to combine building services engineering knowledge with specific energy considerations in their design.

The programme is accredited for further learning for CEng and professional membership by the Energy Institute and CIBSE. CIBSE has praised the programme as ‘one of the leading MSc courses of its kind in the UK’.

Key Facts

- An outstanding place to study. The School of Architecture, Building and Civil Engineering is ranked 1st in the UK for Building in the Times Good University Guide 2018. 

- Research-led teaching from international experts. 75% of the School’s research was rated as world-leading or internationally excellent in the latest Government Research Excellence Framework.

- The programme is accredited by the two main institutions representing energy and buildings – the Chartered Institution of Building Services Engineers and the Energy Institute. On successful completion of the course, students are deemed to meet the education requirements for both institutions and their applications can be endorsed by course tutors.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/low-energy-building-services/

Programme modules

Compulsory Modules:

- Thermodynamics, Heat Transfer & Fluid Flow [70% exam, 10 credits]

- Thermal Comfort & Indoor Air Quality [70% exam, 15 credits]

- Building Thermal Loads & Systems [70% exam, 15 credits]

- Building Energy Supply Systems [70% exam, 15 credits]

- Building Control & Commissioning [70% exam, 10 credits]

- Concept Design [0% exam, 15 credits]

- Low Carbon Building Design [50% exam, 15 credits]

- Advanced Thermal Modelling [50% exam, 15 credits]

- Research Project [0% exam, 60 credits]

- Research Methods in Building Performance [0% exam, 10 credits]

Facilities

All masters students have access to a wide range of building simulation codes which include commercial software, as well as bespoke codes developed in-house. Students can run these codes on their personal laptops or access any one of our computer laboratories, including access to our recently commissioned 2000-node high performance computer cluster.

One of our key strengths at Loughborough is our experimental facilities which enable us to validate computer models. Our masters students have access to a vast range of experimental facilities, some of which are used during the taught modules and all of which are available for use by students during their research dissertations.

How you will learn

You will learn through a carefully balanced combination of lectures, in-class guided workshops, hands-on computer modelling, field measurements and independent research. Students have access to a wide range of air flow and thermal modelling software as wells as extensive laboratory facilities. Following nine taught modules, students pursue a research dissertation of their choice which draws on the skills developed during the taught modules.

Students are assessed by a combination of traditional written exams, coursework and assignments. This split is typically 70/30 (exam/coursework) or 50/50, although some modules, such as research methods and concept design are assessed entirely based on coursework which comprises individual presentations and group work.

Scholarships

The University offers over 100 scholarships each year to new self-financing full-time international students who are permanently resident in a county outside the European Union. These Scholarships are to the value of 25% of the programme tuition fee and that value will be credited to the student’s tuition fee account.

You can apply for a scholarship once you have received an offer for a place on this programme.

Why choose civil engineering at Loughborough?

As one of four Royal Academy of Engineering designated Centres of Excellence in Sustainable Building Design, the School of Civil and Building Engineering is one of the largest of its type in the UK and holds together a thriving community of over 60 academic staff, 40 technical and clerical support staff and over 240 active researchers that include Fellows, Associates, Assistants, Engineers and Doctoral Students.

Our world-class teaching and research are integrated to support the technical and commercial needs of both industry and society. A key part of our ethos is our extensive links with industry resulting in our graduates being extremely sought after by industry and commerce world-wide,

- Postgraduate programmes

The School offers a focussed suite of post graduate programmes aligned to meet the needs of industry and fully accredited by the relevant professional institutions. Consequently, our record of graduate employment is second to none. Our programmes also have a long track record of delivering high quality, research-led education. Indeed, some of our programmes have been responding to the needs of industry and producing high quality graduates for over 40 years.

Currently, our suite of Masters programmes seeks to draw upon our cutting edge research and broad base knowledge of within the areas of contemporary construction management, project management, infrastructure management, building engineering, building modelling, building energy demand and waste and water engineering. The programmes are designed to respond to contemporary issues in the field such as sustainable construction, low carbon building, low energy services, project complexity, socio-technical systems and socio-economic concerns.

- Research

Drawing from our excellent record in attracting research funds (currently standing at over £19M), the focal point of the School is innovative, industry-relevant research. This continues to nurture and refresh our long history of working closely with industrial partners on novel collaborative research and informs our ongoing innovative teaching and extensive enterprise activities. This is further complemented by our outstanding record of doctoral supervision which has provided, on average, a PhD graduate from the School every two weeks.

- Career Prospects

Independent surveys continue to show that industry has the highest regard for our graduates. Over 98% (DLHE, 2016) were in employment and/or further study six months after graduating. Recent independent surveys of major employers have also consistently rated the School at the top nationally for civil engineering and construction graduates.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/low-energy-building-services/



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

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

About this degree

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

Students undertake modules to the value of 180 credits.

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

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

Core modules

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

Optional modules

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

The availability of all optional modules is subject to demand.

Dissertation/report

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

Teaching and learning

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

Fieldwork

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

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

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

Careers

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

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

Recent career destinations for this degree

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

Employability

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

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

Why study this degree at UCL?

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

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

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

Accreditation

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

Research Excellence Framework (REF)

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

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

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

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



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The design of low and medium-rise buildings has, for some time, taken climatic variations and sustainability into account. Read more
The design of low and medium-rise buildings has, for some time, taken climatic variations and sustainability into account. However, despite the increase in the number of large-scale buildings worldwide during the last few decades, high-rise buildings are still seen as mega-scale energy consumers with little regard for sustainable design and performance. The current environmental agenda and interest in sustainability across the globe raises the significance of mega-buildings.

On this interdisciplinary course, we focus on the principles of sustainable planning and design of mega-buildings and prepare students to specialise professionally in this field.

You will be based in the School of Architecture’s new studio for graduate students at Friary House, in Cardiff city centre. This is within 5-10 minutes’ walk of our other site, Bute Building.

Distinctive features

• Accredited by the Council on Tall Buildings and Urban Habitat (CTBUH) at Illinois Institute of Technology in Chicago and by the Chartered Institute of Building Services Engineers (CIBSE), meeting the academic requirements for CEng professional registration.

• Available on a 1 year full-time or 2 year part-time basis.

• See sustainable mega-building design in practice on a variety of national and international field trips.

• Study in one of the top schools of architecture in the UK, and benefit from exceptional facilities, such as the School’s artificial sky dome.

Structure

You can study this course on a one year full-time or two year part-time basis.

There are two stages to the course; stage one comprises taught and specialist modules totalling 120 credits, stage two will be your dissertation (60 credits).

The taught modules on this course will provide a grounding in architectural science within the context of sustainable mega-buildings. On several of these modules, you will be taught alongside students on our other architectural science master’s courses, which is a good opportunity to exchange ideas from different perspectives and broaden your group of friends and contacts.

Our taught modules will help you to explore the interdependence and relationship between social, technological and environmental issues. You will also learn how to relate these issues to the economic, political and legal contexts of planning and designing mega-buildings. We will introduce and review the latest design methods for sustainable mega-buildings in architectural, engineering and building contractor fields.

On the course, we encourage you to articulate your perspectives on sustainable design, which should enable you to become well-versed and experienced in promoting the benefits of sustainable mega-buildings.

Core modules:

Earth and Society
Low Carbon Footprint
Climate Comfort & Energy
Investigation of the Built Environment
Architectural Science Research
Sustainable Mega-Buildings Overview (Climate, Context and Culture)
Sustainable Service Systems for Mega- Buildings
Sustainable Mega-Buildings Design (Project Module)
Dissertation

Teaching

The methods of teaching we employ will vary from module to module, as appropriate depending on the subject matter and the method of assessment. We teach using a mixture of lectures, seminars, workshops, study visits, project work, and group tutorials.

In lectures and workshops we aim to make appropriate use of audio-visual support to aid learning and development of subject-specific skills. You will be given access to relevant teaching materials through the University’s virtual learning environment, Learning Central.

The specialist modules on the course include project work, where you will use mega-building case studies to build 3D physical models in the School’s workshop and Digital Fabrication Lab and can test them in the School’s artificial sky dome.

You will also be taught to use various environmental simulation software programmes, some of which have been developed in the Welsh School of Architecture.

Finally, you will research an area of sustainable mega-building design and planning of interest to you and submit a dissertation based on this research. Your dissertation will be conducted independently with supervision by a member of staff.

Assessment

Taught and project-based modules are assessed in a variety of different ways depending on the module content and learning outcomes (found in the module descriptions). We use class tests, course work (both written assignments and oral presentations or critical assessments/crits), and project work, or a combination of these to assess your progress on the module.

In the dissertation stage, your dissertation is the sole object of assessment. The dissertation is a written report on a piece of research which you have carried out in an agreed subject area under supervision.

Career Prospects

There is currently a worldwide shortage of architects and built environment professionals specialising in the field of planning and designing mega-buildings which perform sustainably. Therefore there is a rising demand for graduates from this type of course.

Typically, graduates from this course will gain employment in large-scale building design or planning companies and practices, environmental design consultancies, research and development centres, or may even set up their own companies/ practices.

Given the current intense public, governmental and professional interest in this area, employment opportunities for graduates who specialise in this field are only likely to grow and become even more attractive both in the UK and globally.

Fieldwork

During the course we go on a range of study trips in the UK, Europe, or further afield. On these trips we will organise guided visits to buildings that demonstrate how principles taught in the programme are applied in revolutionary large-scale eco-buildings. You will also have the opportunity to meet architects and built environment professionals who collaborate with the School.

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The MArch Architecture programme is for graduates of architecture with ARB/RIBA Part 1 who wish to gain exemption from ARB/RIBA Part 2. Read more

The MArch Architecture programme is for graduates of architecture with ARB/RIBA Part 1 who wish to gain exemption from ARB/RIBA Part 2. Our aim is to prepare students for the complexities of contemporary architectural practice by providing a rich mix of rigorous academic and professional teaching.

All students choose a design unit within which to undertake their project work, each unit has a different specialism across the themes of; digital surrealism, film and animation, bio-technology, art practice and contemporary culture. The units are led by a highly experienced team of internationally recognised design tutors.

Programme structure

The first year of the programme starts by developing advanced skills in urban design and digital representation that can be applied to a major building project in conjunction with a professionally mentored 'Design Realisation' technical report. Additionally students are exposed to current theoretical trends that form the basis for ambitious speculations on contemporary architecture.

The second year of study takes the aspirations of the students work to a higher level of professional and academic engagement with an integrated advanced architectural design project and a specialist theoretical and, or, technological thesis developed with respect to the students own interests and passions.

Time commitment

The part-time mode is intended for students working in a supportive architectural practice and requires attendance two days a week over three years.

Facilities

The department is based in a new state of the art building designed by the award winning architects Heneghan Peng; it is equipped with fourteen rooftop landscapes, cutting edge digital workshops, extensive design studios, a world-class library and two gallery spaces.

Our building is located in the heart of Greenwich, the newest addition to a suite of magnificent buildings that occupy the UNESCO World Heritage site and the location of the Greenwich Prime Meridian.

Outcomes

The aims of the programme are to:

  • Prepare the student to be an architect
  • Enable the student to produce the highest level of architectural design
  • Support students to combine the best of practice and academia in creating a design portfolio.

Full time

Year 1

Students are required to study the following compulsory courses.

Year 2

Students are required to study the following compulsory courses.

Part time

Year 1

Students are required to study the following compulsory courses.

Year 2

Students are required to study the following compulsory courses.

Year 3

Students are required to study the following compulsory courses.

Assessment

Students are assessed through design projects, course assessment and portfolio assessment.

Professional recognition

The programme has recognition and exemption from the Part 2 Examination in Professional Practice from both ARB (Architects Registration Board) and RIBA (Royal Institute of British Architects).

Careers

The programme prepares students for future careers as national and international architects.



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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.

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.

This 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.

Course structure

The following modules are indicative of what you will study on this course.

Core modules

Career path

This course will give you skills that can be used both in architectural practice and in environmental design consultancy. The research issues explored in your final thesis project could also lead to further research and an academic career through the path of a PhD degree in a number of related fields.



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This MA prepares students from design and other creative disciplines to apply their knowledge and skills in the branding domain. Read more

About the course

This MA prepares students from design and other creative disciplines to apply their knowledge and skills in the branding domain.

The course develops your high-level skills and creative thinking, helping you learn how to clearly communicate strategies for successful brand building, futures forecasting and change management.

During the course you will also gain valuable industry insight from design and branding professionals who are part of Brunel’s extensive network of industry contacts. You will complete an individual design project, supported by personal supervision, and complete a final year dissertation on your specialist subject of choice.

Aims

All organisations use design, but few master its use strategically. This course provides the skills and knowledge to students wishing to enter this exciting and rewarding field of endeavour.

We were one of the first Masters programmes, globally, that sought to explain the relationship between branding and design and the importance of applying a strategic approach using design thinking, design methods and process. Today we remain a unique course internationally and attract students from all over the world, from different creative and design backgrounds, both with one purpose - to become masters of design strategy.

By the time you graduate you will be equipped to:

effectively apply design to create and deliver innovative brand propositions
creatively communicate brand values and deliver brand experiencein engaging and meaningful ways through a combination of tangible and intangle design
demonstrate expertise in your chosen specialism in exciting fields, such as branding for the collaborative economy
critically evaluate the roles and potential benefits of design in brand strategies
show personal initiative in addressing challenging issues that are relevant to the design industry.

Course Content

The balanced combination of critical examination and rigorous academic research and creativity is a unique characteristic of Brunel's MA programme. You will do a three-phase programme:

Phase One Modules: Taught Element (September - December)

Strategic Design Management
Branding Strategy Studies
Innovation Strategy and Management
Design Research

Phase Two Modules: Taught/Tutored (January - April)

Design and Branding Futures: Seminar & Workshop Programme
Design and Branding Research Project 1
Design and Branding Research Project 2

Phase Three Module: Student-led (May - August)

Design Dissertation

Special Features

Brazilian week - We host an annual visit from top Brazilian designers, with joint activities organised with Brunel students. It’s an extremely exciting and rewarding experience for both our students and visitors.

Eminent speakers - Every year, our ‘Design Futures’ event offers students the chance to use their research to find design-based solutions to issues facing the world. Design Futures also features eminent guest speakers from all aspects of the design profession, who offer their views on the future of design and its role in meeting global challenges.

Industry and professional focus: London is arguably the most important design and creative capital in the world. Brunel Masters plays a key part in this vibrant landscape. Consequently students leave with a realistic and cutting edge set of skills and knowledge. A world renowned consultancy has praised Brunel design graduates for their ability to ‘hit the ground running’ – meaning they start work understanding modern branding and are able to immediately contribute to strategic thinking within a company.

International flavour: Our MA Design courses draw a truly international mix of students, creating a diverse pool of creative talent at Brunel that attracts employers.

Employability

The MA Design courses at Brunel have established links with industry. Every year the MA Team run a Design Futures module, which gives students a chance to explore future trends and scenarios, and to use research in order to find design-based solutions to issues facing the world.

As part of this initiative they invite eminent guest speakers from all aspects of the design profession to come to Brunel and give the students their views of the future, and the role that design will play in meeting global challenges. Speakers in recent years have included Sir Terence Conran, Sir George Cox, Lord Michael Bichard and Wally Olins, to name a few.

The MA Design staff also work closely with several branding and innovation consultancies, for instance, Design Bridge, NewEdge and Jane Wentworth Associates. The course also has a good relationship with trade association organisations such as Design Business Association (DBA). Working closely with these organisations has resulted in student projects, internships/work placements and also graduate employment positions.

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Beautiful architecture. Solid structure. What else do buildings need?. Try living in one without any heating, cooling, electrical power, lighting, water or drainage. Read more
Beautiful architecture. Solid structure. What else do buildings need?

Try living in one without any heating, cooling, electrical power, lighting, water or drainage. What would it be like to work in a tower without lifts? How would you manage without telephones, an IT system or an internet connection? All of these systems and many more are designed by building services engineers. Building Service Engineers turn buildings from empty shells into spaces fit for people to use.

From the very start of the building design, Building Services Engineers are involved helping architects and other members of the design team to get the size, shape and configuration of the building right. They determine strategies for designing energy efficient buildings, making them sustainable in the long term. Buildings are responsible for a large chunk of carbon emissions so this work makes a critical contribution to reducing a building's impact on climate change.

Of all the disciplines working in the built environment today, the building services engineer has the broadest reach and the deepest impact, affecting virtually every aspect of building design. In short, they make buildings work.

This Masters course provides a broad basis of advanced understanding in the technological areas of building services and energy engineering, with particular emphasis on those areas that are relevant to the interaction between the built and natural environments, modern industry, and the analysis of developing technologies.

Modules

The course provides a practitioner perspective with which we analyse building energy requirements in terms of the external environment and internal space, and the effect on energy resources. We consider the principles and analyse associated building engineering systems to understand control, simulation and modelling techniques.

As well as the core engineering skills, appropriate areas of management and research methods are studied to provide a balance foundation for the specialist units. The MSc dissertation provides an opportunity to develop further research skills by application to problems that require in-depth and innovative thinking.

Modules taught on this course include:

Thermal environment, acoustics and lighting
Heating and energy in buildings
Energy resource and use analysis
Electrical power
Sustainable refrigeration
Ventilation and air conditioning
Energy engineering project

Timetable

Full-time timetable: 2 days per week
Part-time day release timetable: 1 day per week

Accreditation

This course is accredited by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute as masters further learning to meet the academic requirements of becoming a Chartered Engineer (with a suitable first degree). The course is accredited on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer.

Expertise

The course is based in what was formerly the National College for Heating Ventilation and Refrigeration Engineering as well as Centre for Energy Studies, and maintains extremely strong links with all areas of the associated industries. Many of the leaders in energy and building services engineering fields are former LSBU students, lending much support in guidance and industrial collaboration, placement and employment.

Employability

Employment prospects are excellent. Construction and engineering activity is expected to accelerate in the UK, Europe and worldwide over the next 20 years and demand for building services engineers continues to outstrip supply.

LSBU Employability Services

LSBU is committed to supporting you develop your employability and succeed in getting a job after you have graduated. Your qualification will certainly help, but in a competitive market you also need to work on your employability, and on your career search. Our Employability Service will support you in developing your skills, finding a job, interview techniques, work experience or an internship, and will help you assess what you need to do to get the job you want at the end of your course. LSBU offers a comprehensive Employability Service, with a range of initiatives to complement your studies, including:

• Direct engagement from employers who come in to interview and talk to students
• Job Shop and on-campus recruitment agencies to help your job search
• Mentoring and work shadowing schemes.

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