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Masters Degrees (Building Energy)

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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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Our MSc Building Diagnostics for Energy and Environmental Performance aims to give students a solid foundation in the evaluation of the operational performance of buildings for energy and environmental aspects. Read more

Our MSc Building Diagnostics for Energy and Environmental Performance aims to give students a solid foundation in the evaluation of the operational performance of buildings for energy and environmental aspects.

The programme will focus on the diagnostics of energy and environmental performance, integrating technical and occupants’ data. It will prepare you for a future career across a range of roles in facilities and building management, consultancy, energy and environmental performance assessment and research.

Overview

Our MSc Building Diagnostics in Energy and Environmental Performance aims to give students a solid foundation in the evaluation of the operational performance of buildings for energy and environmental aspects. The programme will focus on the diagnostics of energy and environmental performance, integrating technical and occupants’ data. It will prepare you for a future career across a range of roles in facilities and building management, consultancy, energy and environmental performance assessment and research.

Most existing programmes in this subject area focus on the design of new buildings. However, the efficient operation of existing buildings is becoming more important. There is a need to improve the quality of environments and, at the same time, to reduce the energy that they consume and their carbon dioxide emissions. You will learn from interdisciplinary approaches, as the programme draws on bodies of theories from building science, social sciences and humanities.

 On successful completion of the programme, you should be able to conduct sound evidence-based environmental and energy performance assessments of buildings in operation. You should also be able to analyse and integrate technical and social aspects of performance using methods of energy and environmental monitoring and human studies.

Our structured curriculum will enable you to develop essential knowledge and practical skills in building diagnostics. We will support you to become an independent learner, able to undertake and understand the industry and policy challenges and to respond to them effectively. The Welsh School of Architecture at Cardiff University is a friendly, supportive and culturally diverse environment in which to study.

Distinctive features

  • Study in one of the top schools of architecture in the UK
  • Available on a 1-year full-time or 2-year part-time basis
  • Looks at buildings diagnostics in a holistic way by considering both technical and human aspects affecting the performance of existing buildings Develops an advanced knowledge of investigation methods and techniques to conduct performance evaluation exercises, integrating technical and human data
  • Includes management strategies to improve the building performance and to meet energy and environmental goals
  • Looks holistically at building performance evaluation, explaining the relationship between environmental conditions in buildings and occupants’ satisfaction, comfort and wellbeing
  • Highly relevant, as the efficient operation of existing buildings is becoming more important
  • Work on a live project to embed your knowledge of building energy and environmental performance with a focused and hands-on approach
  • Benefit from our close links with industry and other building clients to boost your employability

Learning and assessment

You will be taught through a combination of lectures, tutorials, workshops, seminars, practical exercises, field trips and a live project. There will be on-line support available, for example, reading materials and learning resources. In some instances, pre-recorded lectures will be posted online.

Lectures will be delivered face-to-face to introduce key concepts and convey relevant up-to-date information. You will be given access to online material to support the development of knowledge and your understanding of the subject. You are expected to develop a critical understanding of the theoretical base to the subject through self-led study and reading of relevant authors and postulates in the fields of building science, humanities and social sciences.

In tutorials, workshops and seminars you will have the opportunity to critically discuss the subject matter, to consolidate and get feedback on your individual learning and to develop skills in environmental and energy performance evaluation. Practical skills are developed in tutorials, workshops and hands-on exercises, where you will make individual contributions to individual or group-based projects, for example by identifying appropriate investigation methods to explore the building performance, use monitoring equipment, design surveys of building occupants, interrogate and interpret the data (including benchmark data, monitoring and human studies). The practical skills will equip you with the knowledge to conduct appropriate investigations and propose effective management strategies for building operation.

You will practise and develop analytical, practical, intellectual and research skills by participating in diverse learning activities, such as carrying building performance investigations, analysing problems and proposed remedial action/interventions that address different aspects of building performance in use: building level, systems level, occupant factors, small-group discussions, debates, oral presentations, independent research tasks and written assignments. Group work will help you to develop your team-working skills.

Career prospects

Typically graduates from this type of programme will have employability opportunities in energy and environmental consultancy, building management, facilities management, architectural and engineering firms, and research.



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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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Renewable energy production is increasing rapidly and there is a global shortage of trained engineers. With this master’s course you’ll have a highly relevant qualification that’s accredited by the Engineering Council via the Institution of Mechanical Engineers (IMechE). Read more
Renewable energy production is increasing rapidly and there is a global shortage of trained engineers. With this master’s course you’ll have a highly relevant qualification that’s accredited by the Engineering Council via the Institution of Mechanical Engineers (IMechE).

The course covers topics such as photovoltaic, wind, thermo-mechanical energy conversion systems, hybrid renewable energy systems, energy efficiency, building energy modelling and engineering optimisation.

The University has a well-established reputation for renewable and sustainable energy technologies.

You’ll benefit from excellent technical facilities including specialist workshops. We also have a laboratory that’s dedicated to power networks, wind energy, photovoltaics and battery testing for electric vehicles.

For more information about the January start for this course, please view the website: https://www.northumbria.ac.uk/study-at-northumbria/courses/renewable-and-sustainable-energy-technologies-msc-ft-dtfrws6/

Learn From The Best

Our teaching team includes experts from Renewable and Sustainable Energy Research Group. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning.

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent (Research Excellence Framework 2014).

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. Our industrial links help inform our curriculums and ensure a variety of site visits and input from practitioners via guest lectures.

Teaching And Assessment

Our teaching methods include lectures, seminars, workshops, individual tutorials, and group projects. As this is a master’s course there is a significant element of independent learning and self-motivated reflection.

You’ll undertake a master’s project that will hone your skills in evaluating and applying research techniques and methodologies. The topic of the project will reflect your own unique interests.

Assessments are designed to give feedback as well as to monitor your level of achievement. The assessed projects will enable you to test your skills in ways that relate to current industrial practice. Specific assessment methods include assignments, exams, technical reports and presentations.

Module Overview
KB7003 - Building Energy and Environmental Modelling (Core, 20 Credits)
KB7030 - Research Methods (Core, 20 Credits)
KB7040 - Sustainable Development for Engineering Practitioners (Core, 20 Credits)
KB7042 - Thermo-Mechanical Energy Conversion Systems (Core, 20 Credits)
KB7043 - Multidisciplinary Design & Engineering Optimisation (Core, 20 Credits)
KB7045 - Wind, Photovoltaic and Hybrid Renewable Energy Systems (Core, 20 Credits)
KB7052 - Research Project (Core, 60 Credits)

Learning Environment

Northumbria University provides outstanding facilities for renewable and sustainable energy technologies. For example our New and Renewable Energy Laboratory is an excellent resource for research into power networks, wind energy, photovoltaics and battery testing for electric vehicles. All our facilities are backed up by a team of technicians who will give support and advice when you need it.

Technology Enhanced Learning (TEL) is embedded throughout the course with tools such as the ‘Blackboard’ eLearning Portal and electronic reading lists that will guide your preparation for seminars and independent research. Our use of lecture capture software will help you revise challenging material.

To facilitate group projects there is a working space called The Hub that’s well equipped for meetings and working with IT. The Zone is another area that’s popular with students undertaking group work or individual study.

Research-Rich Learning

Northumbria’s strong research ethos is an essential aspect of how you will develop as a critical, reflective and independent thinker. With our problem-solving approach you’ll acquire a wide range of research and analytical skills as you progress through the course. These skills will come together in the master’s project that you’ll undertake, which will require independent research and appropriate techniques of inquiry, critical evaluation and synthesis.

Throughout the course your learning will be directly impacted by the teaching team’s active research. One of Northumbria’s signature research themes is ‘Future Engineering’, which is about innovation in the engineering industry so that it’s fit for purpose in the 21st century. We also have particular interests in smart materials and sustainable technologies.

Give Your Career An Edge

MSc Renewable and Sustainable Technologies has been accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council for the purposes of fully meeting the academic requirements for registration as a Chartered Engineer. Chartered status is associated with improved employability and higher salaries.

The course will equip you with the expertise to design, optimise, apply and evaluate renewable and sustainable energy technologies. Your master’s project will extend your practical experience of industry-standard hardware and software tools. At the same time you’ll develop transferable key skills and personal attributes that promote employability and lifelong learning.

When it comes to applying for jobs our Careers and Employment Service offers resources and support that will help you find roles matching your interests and skills. You will be able to access a range of workshops, one-to-one advice, and networking opportunities.

Your Future

By the end of this course you’ll be in an excellent position to start or continue a career in renewable and sustainable energy technologies. Renewable energy production could increase by up to 1,000% by 2050 compared to 2010, according to the UN Intergovernmental Panel on Climate Change, so there will be a pressing need for well-trained professionals.

You could also undertake a postgraduate research degree such as an MPhil, PhD and Professional Doctorate. If you decide to start up your own business, it’s good to know that the combined turnover of our graduates’ start-up companies is higher than that of any other UK university.

Whatever you decide to do, you will have the transferable skills that employers expect from a master’s graduate from Northumbria University. These include the ability to tackle complex issues through conceptualisation and undertaking research, the ability to contribute to new processes and knowledge, and the ability to formulate balanced judgements when considering incomplete or ambiguous data.

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With a particular focus on research and research methods, our Built Environment. Energy Demand Studies MRes is ideal for you if you wish to be at the cutting-edge of new developments in this important area. Read more

With a particular focus on research and research methods, our Built Environment: Energy Demand Studies MRes is ideal for you if you wish to be at the cutting-edge of new developments in this important area.

Our Built Environment: Energy Demand Studies MRes programme covers many topics that are essential to understanding building energy demand, including building simulation techniques, measuring real building performance, the economics of energy demand and statistical techniques for macro-level analyses. The knowledge you will gain on this programme is applied through the MRes dissertation, a major piece of academic work which takes place throughout the year and provides the opportunity to work closely with an experienced staff member on an in-depth research topic.

The Built Environment: Energy Demand Studies MRes programme aims are to:

  • establish understanding of the UK energy landscape and how energy and climate change challenges are interlinked through technical, environmental and behavioural factors
  • provide the skills necessary to support research practice, critical assessment, and the use of evidence on technical, environmental, social and economic factors influencing energy demand in buildings and building stocks
  • to develop students’ transferable skills enabling them to successfully manage, communicate, and lead complex research projects
  • provide real experience of research through the generation, development and implementation of a significant research-based dissertation

The School of Architecture, Building and Civil Engineering has a world leading reputation for its research and strong collaborations with industry and commerce. The School is one of four Royal Academy of Engineering Centres of Excellence in Sustainable Building Design, and one of the six most highly funded EPSRC-funded groups working on Built Environment topics.

In the UK Government’s 2014 Research Excellence Framework (REF 2014), the School was the highest ranked and most research intensive building energy research school in the UK. 87% of the School’s research was scored as ‘world leading’ or ‘internationally excellent’.

During your studies, you will gain access to 3000m2 of unrivalled laboratory and field-scale facilities that enable world-class research to be conducted. Our suite of full-scale test houses are unique in providing a ‘matched pair’ capability that allows high-quality comparative testing of home energy efficiency interventions. In the laboratory, a controllable environmental room combined with laser-based velocimetry equipment and heated breathing manikin allows investigations of the airflows around humans in rooms and the implications for inhaled air quality and thermal comfort for a range of ventilation options. A ‘salt bath’ water tank enables airflows through buildings to be visualised and a large scale indoor solar simulator can be used for testing the solar collection performance of new concepts for renewable energy collection by buildings. There are many questions about moisture flows in buildings, and our newly-completed hygrothermal chambers allow investigation of heat and moisture transfer through building structures. These large-scale facilities are complimented by a suite of workshops and supported by a team of technicians trained in wood-work, plastics, metal-work, mechanical systems and electronics.



Read less
Renewable energy production is increasing rapidly and there is a global shortage of trained engineers. With this master’s course you’ll have a highly relevant qualification that’s accredited by the Engineering Council via the Institution of Mechanical Engineers (IMechE). Read more
Renewable energy production is increasing rapidly and there is a global shortage of trained engineers. With this master’s course you’ll have a highly relevant qualification that’s accredited by the Engineering Council via the Institution of Mechanical Engineers (IMechE).

The course covers topics such as photovoltaic, wind, thermo-mechanical energy conversion systems, hybrid renewable energy systems, energy efficiency, building energy modelling and engineering optimisation.

The University has a well-established reputation for renewable and sustainable energy technologies.

You’ll benefit from excellent technical facilities including specialist workshops. We also have a laboratory that’s dedicated to power networks, wind energy, photovoltaics and battery testing for electric vehicles.

In the second year, for one semester, you’ll undertake an internship, study in another country or join a research group. This valuable experience will enhance your employability and further develop your theoretical and practical skills.

Internship

This option offers the opportunity to spend three months working full-time in one of the many companies/industries with which we have close links. You may be able to extend this over more than one semester in cases where it is adjacent to a vacation period. We will endeavour to help those who prefer this option to find and secure a suitable position but ultimately we are in the hands of the employers who are free to decide who they take into their organisation.

Research

If you take this option, you will be assigned to our Engineering, Physics and Materials Research Group. There is every possibility that you may contribute to published research and therefore you may be named as part of the research team, which would be a great start to a research career.

Study Abroad

We have exchange agreements with universities all over the world, including partners in Europe, Asia, the Americas and Oceania. If you take the Study Abroad option you will spend a semester at one of these partners, continuing your studies in English but in a new cultural and learning environment. Please note that this option may require you to obtain a visa for study in the other country.

Learn From The Best

Our teaching team includes experts from Renewable and Sustainable Energy Research Group. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning.

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent (Research Excellence Framework 2014).

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. Our industrial links help inform our curriculums and ensure a variety of site visits and input from practitioners via guest lectures.

Teaching And Assessment

Our teaching methods include lectures, seminars, workshops, individual tutorials, and group projects. As this is a master’s course there is a significant element of independent learning and self-motivated reflection.

You’ll undertake a master’s project that will hone your skills in evaluating and applying research techniques and methodologies. The topic of the project will reflect your own unique interests.

Assessments are designed to give feedback as well as to monitor your level of achievement. The assessed projects will enable you to test your skills in ways that relate to current industrial practice. Specific assessment methods include assignments, exams, technical reports and presentations.

The Advanced Practice semester will be assessed via a report and presentation about your internship, study abroad or research group activities.

Module Overview
Year One
KB7003 - Building Energy and Environmental Modelling (Core, 20 Credits)
KB7030 - Research Methods (Core, 20 Credits)
KB7040 - Sustainable Development for Engineering Practitioners (Core, 20 Credits)
KB7042 - Thermo-Mechanical Energy Conversion Systems (Core, 20 Credits)
KB7043 - Multidisciplinary Design & Engineering Optimisation (Core, 20 Credits)
KB7045 - Wind, Photovoltaic and Hybrid Renewable Energy Systems (Core, 20 Credits)

Year Two
KB7052 - Research Project (Core, 60 Credits)
KF7005 - Engineering and Environment Advanced Practice (Core, 60 Credits)

Learning Environment

Northumbria University provides outstanding facilities for renewable and sustainable energy technologies. For example our New and Renewable Energy Laboratory is an excellent resource for research into power networks, wind energy, photovoltaics and battery testing for electric vehicles. All our facilities are backed up by a team of technicians who will give support and advice when you need it.

Technology Enhanced Learning (TEL) is embedded throughout the course with tools such as the ‘Blackboard’ eLearning Portal and electronic reading lists that will guide your preparation for seminars and independent research. Our use of lecture capture software will help you revise challenging material.

To facilitate group projects there is a working space called The Hub that’s well equipped for meetings and working with IT. The Zone is another area that’s popular with students undertaking group work or individual study.

Research-Rich Learning

Northumbria’s strong research ethos is an essential aspect of how you will develop as a critical, reflective and independent thinker. With our problem-solving approach you’ll acquire a wide range of research and analytical skills as you progress through the course. These skills will come together in the master’s project that you’ll undertake, which will require independent research and appropriate techniques of inquiry, critical evaluation and synthesis.

Throughout the course your learning will be directly impacted by the teaching team’s active research. One of Northumbria’s signature research themes is ‘Future Engineering’, which is about innovation in the engineering industry so that it’s fit for purpose in the 21st century. We also have particular interests in smart materials and sustainable technologies.

Give Your Career An Edge

MSc Renewable and Sustainable Technologies has been accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council for the purposes of fully meeting the academic requirements for registration as a Chartered Engineer. Chartered status is associated with improved employability and higher salaries.

The course will equip you with the expertise to design, optimise, apply and evaluate renewable and sustainable energy technologies. Your master’s project will extend your practical experience of industry-standard hardware and software tools. At the same time you’ll develop transferable key skills and personal attributes that promote employability and lifelong learning.

The Advanced Practice semester will help you develop a track record of achievement that will help you stand out from other job applicants.

A two-year master’s course, like this one, will carry particular weight with employers. They’ll understand that you’ll have a deeper understanding of topics as well as more hands-on practical experience.

When it comes to applying for jobs our Careers and Employment Service offers resources and support that will help you find roles matching your interests and skills. You will be able to access a range of workshops, one-to-one advice, and networking opportunities.

Your Future

By the end of this course you’ll be in an excellent position to start or continue a career in renewable and sustainable energy technologies. Renewable energy production could increase by up to 1,000% by 2050 compared to 2010, according to the UN Intergovernmental Panel on Climate Change, so there will be a pressing need for well-trained professionals.

You could also undertake a postgraduate research degree such as an MPhil, PhD and Professional Doctorate. If you decide to start up your own business, it’s good to know that the combined turnover of our graduates’ start-up companies is higher than that of any other UK university.

Whatever you decide to do, you will have the transferable skills that employers expect from a master’s graduate from Northumbria University. These include the ability to tackle complex issues through conceptualisation and undertaking research, the ability to contribute to new processes and knowledge, and the ability to formulate balanced judgements when considering incomplete or ambiguous data.

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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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Why this course?. The MSc in Global Energy Management (GEM) is an intensive course aiming to produce future leaders in the energy sector. Read more

Why this course?

The MSc in Global Energy Management (GEM) is an intensive course aiming to produce future leaders in the energy sector.

The global energy system is undergoing a process of rapid change including:

  • escalating demand
  • constraints on supplies
  • increasing energy prices
  • regulatory pressures to reduce carbon emissions
  • changing demographics and patterns of energy use and supply

Industries, economies and societies face complex challenges and uncertainties that could become more extreme in the future. Both government and industry need to be able to understand and adapt to this changing context.

Through this course you’ll gain a rigorous analytical training and in-depth real-world knowledge of global energy systems. There’s also hands-on training in the management of energy-related issues. Your training will help to give you an unrivalled edge in the energy job market.

This Masters degree is delivered by the Department of Economics.

You’ll study

Core classes are designed around the latest academic research on the issues facing energy managers today. You’ll also have the opportunity to pursue your own interests through a variety of optional courses.

We run a series of interactive seminars called the Global Energy Forum. Leading international energy experts in business, government and other organisations provide you with practical insights and inside knowledge.

There are also field trips, conferences and you will complete a summer project.

Core classes

  • Global Energy Issues, Industries & Markets
  • Global Energy Technologies, Impacts & Implementation
  • Global Energy Policy, Politics, Business Structures & Finance
  • Global Energy Forum
  • Energy Economics
  • Microeconomics or Macroeconomics

Elective classes

You’ll be able to choose from many postgraduate classes offered in:

  • The Strathclyde Business School
  • The Faculty of Engineering
  • The Faculty of Humanities & Social Sciences

Facilities

The Strathclyde Business School is situated in a modern building in heart of Glasgow’s city centre. It’s designed to meet the demands of both corporate clients and students. Our school is equipped with up-to-date computing and technology facilities, study areas and its own café.

Accreditation

The MSc in Global Energy Management is accredited by the Energy Institute, the professional body for the energy industry. It is the first Masters course to hold academic accreditation for the professional status of Chartered Energy Manager.

The Strathclyde Business School is a triple accredited business school. It’s one of only a small percentage worldwide to hold this prestigious status, with full accreditation from the international bodies, AMBA, AACSB and EQUIS.

Energy Master Exchange Programme (EMEP)

Strathclyde Business School and Dauphine Université, Paris, have joined forces to bring future leading energy market professionals together by forming the Energy Master Exchange Programme (EMEP) Workshop.

Further information will be given when you enter the programme.

Learning & teaching

You’ll be taught by highly committed and enthusiastic staff distinguished by their internationally-recognised research in energy and environmental related fields.

The course offers excellent opportunities to network with international energy specialists from a range of organisations.

Careers

Energy is the largest and most critical industry in the global economy today.

Employers are seeking out skilled graduates to work in the energy industry and related fields. As a graduate in global energy management, you’ll be well placed to manage the complex challenges facing the global energy system in the 21st century.

We’ve designed this course to maximise the opportunities for industry engagement. You’ll take part in industry events such as the Scottish Oil Club.

While on the course you’ll become Learning Affiliates of the Energy Institute. You’re entitled to free Energy Institutemembership. Membership includes:

  • access to a wealth of energy related information
  • significant discounts to attend conferences and seminars
  • many opportunities to meet professionals across the energy sector


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Renewable energy is an essential and vital resource for the world’s future, and future there is an urgent need for engineers capable of solving the industry’s complex challenges in this field. Read more

About the course

Renewable energy is an essential and vital resource for the world’s future, and future there is an urgent need for engineers capable of solving the industry’s complex challenges in this field.

Studying Renewable Energy Engineering at Brunel provides graduates with the knowledge and skills to make a strategic real-world impact in the resolution of the world’s energy problems.

Graduates from Brunel’s MSc in Renewable Energy Engineering will develop:

- The versatility and depth to deal with new, demanding and unusual challenges across a range of renewable energy issues, drawing on an understanding of all aspects of renewable energy principles including economic assessment.

- The imagination, initiative and creativity to enable them to follow a successful engineering career with national and international companies and organisations.

- Specialist knowledge and transferable skills for successful careers including, where appropriate, progression to Chartered Engineer status.

Aims

Huge business incentives, markets and a wide variety of employment opportunities throughout the world are expected with the development of renewable energy resources as a substitute for fossil fuel technology.

The purpose of the MSc programme is to help meet this demand by cultivating qualified and skilled professionals with specialist knowledge in relevant technologies within the renewable energy sector.

The primary aim is to create Master’s degree graduates with qualities and transferable skills ready for demanding employment in the renewable energy sector. These graduates will have the independent learning ability required for continuing professional development and acquiring new skills at the highest level, and the programme also establishes a strong foundation for those who expect to continue onto a PhD or industrial research and development.

Initial programme learning outcomes

The programme will provide opportunities for students to develop and demonstrate knowledge and understanding, qualities, skills and other attributes in the following areas:

Knowledge and understanding of:

1.The principles and environmental impact of renewable energy technologies, including solar (thermal and electricity), wind, tidal, wave and hydro, geothermal, biomass and hydrogen.
3. The principles of energy conversion and appropriate thermodynamic machines.
4. The heat and mass transfer processes that relate to energy systems and equipment.
5. The principles, objectives, regulation, computational methods, economic procedures, emissions trading, operation and economic impact of energy systems.
6. The diversity of renewable energy system interactions and how they can be integrated into actual energy control systems and industrial processes.

At the cognitive thinking level, students will be able to:

1. Select, use and evaluate appropriate investigative techniques.
2. Assemble and critically analyse relevant primary and secondary data.
3. Recognise and assess the problems and critically evaluate solutions to challenges in managing renewable energy projects.
4. Evaluate the environmental and financial sustainability of current and potential renewable energy activities
5. Develop a thesis by establishing the basic principles and following a coherent argument.

In terms of practical, professional and transferable skills, students will be able to:

1. Define and organise a substantial advanced investigation.
2. Select and employ appropriate advanced research methods.
3. Organise technical information into a concise, coherent document.
4. Communicate effectively both orally and in writing.
5. Design and select renewable energy equipment and systems based on specific requirements/conditions.
6. Work as part of, and lead, a team.

Course Content

The taught element of the course (September to April) includes eight modules; delivery will be by a combination of lectures, tutorials and group/seminar work. A further four months (May to September) is spent undertaking the dissertation.

Compulsory modules:

Renewable Energy Technologies I-Solar Thermal and electricity systems
Renewable Energy Technologies II-Wind, Tidal, Wave, Hydroelectricity
Renewable Energy Technologies III-Geothermal, Biomass, Hydrogen
Power Generation from Renewable Energy   
Renewable Energy Systems for the Built Environment
Energy Conversion Technologies
Environmental Legislation: Energy and Environmental Review and Audit
Advanced Heat and Mass Transfer
Dissertation

Teaching

Students are introduced to subject material, including key concepts, information and approaches, through a mixture of standard lectures and seminars, laboratory practical, field work, self-study and individual research reports. Supporting material isavailable online. The aim is to challenge students and inspire them to expand their own knowledge and understanding.

Preparation for work is achieved through the development of 'soft' skills such as communication, planning, management and team work. In addition, guest speakers from industries provide a valuable insight into the real world of renewable energy.

Many of the practical activities in which the students engage, develop into enjoyable experiences. For example, working in teams for laboratory and field work and site visits. We encourage students to develop personal responsibility and contribution throughout the course. Many elements of coursework involve, and reward, the use of initiative and imagination. Some of the projects may be linked with research in CEBER, CAPF and BIPS research centres.

1 Year Full-Time: The taught element of the course (September to April) is delivered by a combination of lectures, tutorials and group/seminar work. From May to September students undertake the dissertation.

3-5 Years Distance Learning: The programme is designed to enable you to conduct most of your studies at home, in your own time and at your own pace. Students are supplied with a study pack in the form of text books and CD-ROMs; cut-off dates for receipt of assignments are specified at the beginning of each stage. Examinations can be taken either at Brunel University London or in the country you are resident in. The dissertation is carried out in one year.

Modules are assessed either by formal examination, written assignments or a combination of the two.

Assessment

Each module is assessed either by formal examination, written assignments or a combination of the two. Cut-off dates for receipt of assignments are specified at the beginning of the academic year. Examinations are normally taken in May. The MSc dissertation project leading to submission of the MSc Dissertation is normally carried out over four months (FT students) or one year (DL students).

Special Features

Excellent facilities
We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

About Mechanical Engineering at Brunel
Mechanical Engineering offers a number of MSc courses all accredited by professional institutes as appropriate additional academic study (further learning) for those seeking to become qualified to register as Chartered Engineers (CEng). Accrediting professional institutes vary by course and include the Institute of Mechanical Engineers (IMechE), Energy Institute (EI) and Chartered Institute of Building Services Engineers (CIBSE).

Teaching in the courses is underpinned by research activities in aerospace engineering, automotive/motorsport engineering, solid and fluid mechanics, and energy & environment. Staff generate numerous publications, conference presentations and patents, and have links with a wide range of institutions both within and outside the UK. The discipline benefits from research collaboration with numerous outside organisations including major oil companies, vehicle manufacturers, and other leading industrial firms and governmental laboratories. We have links with at least six teaching hospitals and work with universities in China, Poland, Egypt, Turkey, Denmark, Japan, Brazil, Germany, Belgium, Greece, Italy and the US.

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

The requirement of UK-SPEC reinforces the need for a recent graduate with a Bachelor degree to take an appropriate postgraduate qualification in order to become a chartered engineer (currently, an accredited Bachelors degree does not enable the graduate to proceed to Chartered Engineer status without additional learning at M level).

This MSc program will be compliant with the further learning requirements of UK-SPEC. Accreditation will be sought from the Institute of Mechanical Engineering (IMechE) and Energy Institute. As a result, it will appeal to recent graduates who have not yet obtained the appropriate qualifications but intend to become Chartered Engineers. Most importantly, it will appeal to Mechanical, Chemical and Building Services Engineering graduates who wish to specialise in energy, or suitably experienced graduates of related subjects such as Physics.

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This course is aimed at professional engineers aspiring to increased management responsibility in the building services sector or who have reached a stage in their careers when they are carrying increasing management responsibility. Read more

About the course

This course is aimed at professional engineers aspiring to increased management responsibility in the building services sector or who have reached a stage in their careers when they are carrying increasing management responsibility.

It caters to the worldwide demand for building services engineering managers who have a sound knowledge of engineering and management principles – and the ability to apply this knowledge to complex situations.

Management modules cover engineering finance and accounting, people management, business organisation and facilities and contract management.

Aims

Building Service Engineers help buildings to deliver on their potential by working with architects and construction engineers to produce buildings that offer the functionality and comfort we expect, with the minimum impact on our environment. They design the lighting appropriate for the space, the heating, cooling, ventilation and all systems that ensure comfort, health and safety in all types of buildings, residential commercial and industrial.

Building services engineering is an interdisciplinary profession. It involves the specification, design, installation and management of all the engineering services associated with the built environment.

With the growing complexity of engineering services in modern buildings and the significance of energy conservation and pollution control, the role of the building services engineer is becoming increasingly important.

As an interdisciplinary profession that involves the specification, design, installation and management of all the engineering services associated with the built environment, comfort and function also need to be combined – which calls for engineers with a wide range of knowledge and skills.

This MSc programme is for:

Recent engineering and technology graduates, moving into building services and related disciplines.
Established engineers and technologists, working in building services and faced with the challenge of new areas of responsibility.
Engineers who want to develop technical understanding and expertise across the multi-disciplines of building services engineering.
Managers and designers, who need to broaden their experience and require updating.
Lecturers in higher education, moving into or requiring updating in building services engineering.
Others with engineering and technology backgrounds, perhaps working in advisory or consultancy roles, who wish to familiarise themselves with building services engineering. However, choice of course will be dependent upon the type and extent of knowledge and skills required.

Course Content

Modes of Study
3-5 Years Distance Learning

The distance learning programme is designed to enable you to conduct most of your studies at home, in your own time and at your own pace.

There is no requirement to attend lectures at Brunel University and there is no set timetable of lectures, instead you follow a structured programme of self-study at home or at work. This gives you the freedom to arrange a work programme to suit yourself and you should usually allow about twelve hours each week for study.

There are set submission dates for assignments but we have tried to design the programme so that they are well-spaced, giving you the maximum flexibility in your study plans.

You can take between three and five years to complete the course. The average is three years, with students taking four modules in the first year, four modules in the second year and the dissertation in the third year. However, depending on your other commitments you can take longer up to a maximum of five years.

You are supplied with a study pack in the form of textbooks and CD-ROMs; you have assignments to submit and exams to sit each year.

Examinations can be taken either at Brunel University or in the country you are resident in. We have an extensive network of organisations (universities, colleges and British Council offices) throughout the world who will provide invigilation services.

The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Compulsory Modules

Building Heat Transfer and Air Conditioning
Electrical Services and Lighting Design
Acoustics, Fire, Lifts and Drainage
Engineering Finance and Accounting
Management of People in Engineering Activities
Organisation of Engineering Business
Management of Facilities and Engineering Contracts
Dissertation

Students should choose one of the two themes below:

Theme A - Traditional

Energy Conversion Technologies
This element provides a broad introduction to the principles of energy conversion and thermodynamic machines and demonstrates their application to energy conversion and management in buildings. Emphasis is placed on refrigeration plant, energy conversion plant and energy management.
Refrigeration covers the basic principles and components of vapour compression systems, heat pumps and absorption systems.
Energy Conversion considers power cycles, combined heat and power, combustion processes, boiler plant, thermal energy storage and environmental impacts of plant operation.

Theme B - Renewable

Renewable Energy Technologies
This element includes: energy sources, economics and environmental impact, energy storage technologies, the role of renewables, solar thermal, solar electricity, wind power generation, hydro, tidal and wave power, biofuels, building integrated renewables.

Special Features

There are several advantages in choosing Brunel's Building Services programme:

Award-winning courses: Building Services Engineering courses at Brunel have been awarded the Happold Brilliant Award for teaching excellence by the Chartered Institution of Building Services Engineers.

Relevance: it is well established within the building services industry, with sponsors of students that include major design and contracting organisations, area health authorities, local authorities and the British Council, as well as several national governments.

Applicability: emphasis on applications enables students and employers to benefit immediately from the skills and knowledge gained.

Responsiveness: Brunel's proximity to London, where large and innovative building developments have been taking place over the last decade, enables rapid infusion of new ideas and technological innovations into the programme content.

Excellent facilities

We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

Accreditation

The course is approved by the Chartered Institute of Building Services Engineers (CIBSE) and the Institution of Mechanical Engineers (IMechE) as appropriate additional academic study (further learning) for those seeking to become qualified to register as Chartered Engineers (CEng).

Teaching

Students are supplied with a study pack in the form of text books and CD-ROMs; you have assignments to submit and exams to sit each year. Examinations can be taken either at Brunel University or in the country you are resident in.
We have an extensive network of organisations (Universities, Colleges and British Council Offices) throughout the world who will provide invigilation services. The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Assessment

Each module is assessed either by formal examination, written assignments or a combination of the two. Cut-off dates for receipt of assignments are specified at the beginning of each stage. Examinations are normally taken in May.
Successful completion of the taught modules allows the student to proceed to the dissertation stage. To qualify for the award of the MSc degree, the student must submit a satisfactory dissertation.

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Summary. The aim of the course is straightforward, in that it is designed to meet a need for engineers and energy professionals to deliver energy conscious and environmentally sustainable solutions for use by the public, industry, services and government. Read more

Summary

The aim of the course is straightforward, in that it is designed to meet a need for engineers and energy professionals to deliver energy conscious and environmentally sustainable solutions for use by the public, industry, services and government.

It 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.

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.

The eight taught modules are designed to give students a broad expertise in the ever expanding range of Renewable Energy technologies combined with the more fundamental requirements demanded by Energy Management.

About

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.

Graduates are expected to achieve skills in identifying, developing, analysing and critically appraising solutions and to apply those skills in a professional manner. The students who progress to the MSc from the PgD will also be expected to demonstrate a comprehensive understanding of techniques applicable to their own research, combined with the management of an independent investigation in an area related to energy technology, with the aim of producing graduates with the capability to pursue a career in research and development through independence, self motivation and initiative.

Attendance

Part-time, online study only. Students' engagement with online study will facilitated through the university's virtual learning environment.

For each module

Online learning: 24 hrs

Online disussions / tutorial / group discussions: 12 hrs

Independent study: 114 hrs

Total effort hours: 150 hrs

For the final year research dissertation, the total effort hours is 600 hrs.

Professional recognition

Energy Institute (EI) 

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.

Chartered Institution of Building Services Engineers (CIBSE) 

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.

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.



Read less
Summary. The aim of the course is straightforward, in that it is designed to meet a need for engineers and energy professionals to deliver energy conscious and environmentally sustainable solutions for use by the public, industry, services and government. Read more

Summary

The aim of the course is straightforward, in that it is designed to meet a need for engineers and energy professionals to deliver energy conscious and environmentally sustainable solutions for use by the public, industry, services and government.

It 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.

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.

The eight taught modules are designed to give students a broad expertise in the ever expanding range of Renewable Energy technologies combined with the more fundamental requirements demanded by Energy Management.

About

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.

Graduates are expected to achieve skills in identifying, developing, analysing and critically appraising solutions and to apply those skills in a professional manner. The students who progress to the MSc from the PgD will also be expected to demonstrate a comprehensive understanding of techniques applicable to their own research, combined with the management of an independent investigation in an area related to energy technology, with the aim of producing graduates with the capability to pursue a career in research and development through independence, self motivation and initiative.

Attendance

Part-time, online study only. Students' engagement with online study will facilitated through the university's virtual learning environment.

For each module

Online learning: 24 hrs

Online disussions / tutorial / group discussions: 12 hrs

Independent study: 114 hrs

Total effort hours: 150 hrs

For the final year research dissertation, the total effort hours is 600 hrs.

Professional recognition

Energy Institute (EI) 

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.

Chartered Institution of Building Services Engineers (CIBSE) 

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.

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.



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A unique programme. Gain an in-depth understanding of global energy management issues and the tools to design more effective energy programmes with the Master of Engineering Studies (Energy Management). Read more

A unique programme

Gain an in-depth understanding of global energy management issues and the tools to design more effective energy programmes with the Master of Engineering Studies (Energy Management).

Find out more about the Master of Engineering Studies parent structure.

In the energy management major of the Master of Engineering Studies, you will gain an detailed understanding of energy efficiency, looking at detail of energy use in industry and commercial settings, as well as tools for energy systems analysis and efficient building design.

A unique qualification

It is a unique postgraduate programme in New Zealand. Taught in conjunction with world-renowned Murdoch University in Australia, it is the only fully-focussed energy management postgraduate programme in New Zealand. The programme has been running for over fifteen years.

Learning in a global context

Your learning will be set in the context of global renewable energy systems and tools. You will learn the detail of contemporary renewable energy issues including greenhouse science, global energy systems, policy, economics and management. This will specifically cover renewable energy devices, resources and system design.

Setting the global agenda

Let our experts help you develop your own expertise. We bring a solid base of experience to your learning from our Centre for Energy Research, established at Massey in 1997 following over 25 years of teaching and research work undertaken in the areas of renewable energy, energy efficiency and energy management. We also bring the most relevant and recent research to your learning. You will learn the theory and practice behind energy management, renewable energy and climate change from lecturers who have been working internationally, contributing to research and policy through panels that are setting the global agenda.

Flexibility

You can study towards the Master of Engineering Studies on campus, or study via our distance learning. This gives you the flexibility to remain in full-time employment while studying. Massey University has been offering distance education for over 50 years and you will be able to take advantage of our well-developed systems for teaching and learning. Part of your study will be a real-life energy management case study.

Dig deeper

The renewable energy systems major includes an optional research project, where you can either investigate a topic you are interested in, or work with us to develop an industry-relevant piece of work.

Real-world learning

You will gain an in-depth understanding of the theory of renewable energy systems, but also focus on practical information that can be applied to real-world situations. This could be through using the international Long Range Energy Alternatives Planning System (LEAP) model to assess climate change mitigation options for a country, city or community. You will also learn how to measure renewable energy resources, and understanding the challenges of providing energy efficiency or renewable energy systems in developing countries as part of sustainable development.

The programme also covers the social issues to change human behaviour regarding the deployment of renewable energy systems and related greenhouse gas emission reductions.

Specialise

This qualification is suitable if you either have an undergraduate engineering degree and wish to specialise in energy management, or you have found yourself working in a energy management-related role and need to upskill. You do not have to have an engineering degree to enrol.

A year full time

The Master of Engineering Studies is a 120 credit qualification able to be completed in one year full-time, or part-time between 2.5 and five years..

Why postgraduate study?

Postgraduate study is hard work but hugely rewarding and empowering. The Master of Engineering Studies will push you to produce your best creative, strategic and theoretical ideas. The workload replicates the high-pressure environment of senior workplace roles.

Not just more of the same

Postgraduate study is not just ‘more of the same’ undergraduate study. Our experts are there to guide but if you have come directly from undergraduate study, you will find that postgraduate study demands more in-depth and independent study. It takes you to a new level in knowledge and expertise especially in planning and undertaking research.



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This programme responds to the worldwide demand for building services engineers who have a sound knowledge of engineering principles and the ability to apply this knowledge within the building services industry. Read more

About the course

This programme responds to the worldwide demand for building services engineers who have a sound knowledge of engineering principles and the ability to apply this knowledge within the building services industry.

Professional ‘Building Services Engineers’ design all of the systems that are necessary in a building for occupants to carry out their business. These systems include: heating, lighting, air-conditioning and electrical systems. The role is increasingly involved with the provision of sustainable, energy efficient and green building within our society. Services have to be carefully designed and installed so that they are unobtrusive and aesthetically pleasing, and also work in harmony with the architecture of the building. The programme will respond to the worldwide demand for building services engineers who have a sound knowledge engineering principles and the ability to apply this knowledge to the complex situations prevailing within the building services industry.

The course is available either as a full-time, 1-year programme at Brunel or as a 3-to-5 year distance learning programme.

Aims

With the growing complexity of engineering services in modern buildings and the significance of energy conservation and emissions control, the role of the building services engineer is becoming increasingly important.

As an interdisciplinary profession that involves the specification, design, installation and management of all the engineering services associated with the built environment, comfort and function also need to be combined – which calls for engineers with a wide range of knowledge and skills.

This MSc programme is suitable for:

Recent engineering and technology graduates, moving into building services and related disciplines.
Established engineers and technologists, working in building services and faced with the challenge of new areas of responsibility.
Engineers who want to develop technical understanding and expertise across the multi-disciplines of building services engineering.
Managers and designers, who need to broaden their experience and require updating.
Lecturers in higher education, moving into or requiring updating in building services engineering.
Others with engineering and technology backgrounds, perhaps working in advisory or consultancy roles, who wish to familiarise themselves with building services engineering. However, choice of course will be dependent upon the type and extent of knowledge and skills required.

Course Content

Modes of Study

1 Year Full-Time: The taught element of the course (September to April) includes seven modules; delivery will be by a combination of lectures, tutorials and group/seminar work. A further four months (May to September) is spent undertaking the dissertation.

3-5 Years Distance Learning: The distance learning programme is designed to enable you to conduct most of your studies at home, in your own time and at your own pace.

There is no requirement to attend lectures at Brunel University and there is no set timetable of lectures, instead you follow a structured programme of self-study at home or at work. This gives you the freedom to arrange a work programme to study yourself and you should usually allow about twelve hours each week for study.

There are set submission dates for assignments but we have tried to design the programme so that they are well-spaced, giving you the maximum flexibility in your study plans.

You can take between three and five years to complete the course. The average is three years, with students taking four modules in the first year, four modules in the second year and the dissertation in the third year. However, depending on your other commitments you can take longer up to a maximum of five years.

You are supplied with a study pack in the form of textbooks and CD-ROMs; you have assignments to submit and exams to sit each year.

Examinations can be taken either at Brunel University or in the country you are resident in. We have an extensive network of organisations (universities, colleges and British Council offices) throughout the world who will provide invigilation services.

The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Typical Modules

The course comprises four core modules, three technical modules and a dissertation. The taught modules are:

Core Modules:

Building Heat Transfer and Air Conditioning
Electrical Services and Lighting Design
Acoustics, Fire, Lifts and Drainage
Energy Conversion Technologies
Dissertation

Technical Modules:

Building Management and Control Systems
Design of Fluid Services and Heat Transfer Equipment
Building Services Design and Management

Special Features

There are several advantages in choosing the Brunel Building Services programme:

Award-winning courses: Building Services Engineering courses have been awarded the Happold Brilliant Award for teaching excellence by the Chartered Institution of Building Services Engineers.

Relevance: It is well established within the building services industry, with sponsors of students that include major design and contracting organisations, area health authorities, local authorities and the British Council, as well as several national governments.

Applicability: Emphasis on applications enables students and employers to benefit immediately from the skills and knowledge gained.

Responsiveness: Brunel's proximity to London, where large and innovative building developments have been taking place over the last decade, enables rapid infusion of new ideas and technological innovations into the programme content.

Excellent facilities
We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

Collaborative research
Engineering at Brunel benefits from research collaboration with numerous outside organisations including major oil companies, vehicle manufacturers, and other leading industrial firms and governmental laboratories. We have links with at least six teaching hospitals and work with universities in China, Poland, Egypt, Turkey, Denmark, Japan, Brazil, Germany, Belgium, Greece, Italy and the US.

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

This course is approved by the Chartered Institute of Building Services Engineers (CIBSE) and the Institution of Mechanical Engineers (IMechE) as appropriate additional academic study (further learning) for those seeking to become qualified to register as Chartered Engineers (CEng). Additioanlly we are seeking reaccreditation with the Energy Institute.

Teaching

Students are supplied with a study pack in the form of text books and CD-ROMs; you have assignments to submit and exams to sit each year. Examinations can be taken either at Brunel University or in the country you are resident in.
We have an extensive network of organisations (Universities, Colleges and British Council Offices) throughout the world who will provide invigilation services. The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Assessment

Each module is assessed either by formal examination, written assignments or a combination of the two. Cut-off dates for receipt of assignments are specified at the beginning of the academic year.
Examinations are normally taken in May. MSc dissertation project normally is carried out over four months (full-time students) or one year (distance learning students) and it is accessed by submission of an MSc dissertation.

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Germany is home to the largest energy sector in Europe and a forerunner in renewable energy deployment. Where else would you study energy law than in Germany’s capital?. Read more

Germany is home to the largest energy sector in Europe and a forerunner in renewable energy deployment. Where else would you study energy law than in Germany’s capital?

For the fourth year now Technische Universität Berlin offers the advanced Master of Business Law European and International Energy Law on the EUREF Campus in the centre of Berlin. The course offers lawyers, legal practitioners and economists an excellent opportunity to gain expertise in the field of international and European energy law. Students will become acquainted with the technical and economic foundations of energy markets as well as all areas of law relevant for the value chains in the electricity and gas sector. The curriculum covers competition law, regulatory law and economic fundamentals inter alia.

Experts

Lectures come from the international community (Germany, USA, Switzerland, Belgium, Norway, Russia) and are experts from universities, European and national authorities, international and national energy companies, major law firms, and courts. To name a few, technical universities, the European Commission, the German regulatory authority BNetzA.

The course is also supported by the Institute for Energy and Regulatory Law Berlin (http://www.enreg.eu) and benefits from experts‘ knowledge of the European and German energy sector which is the largest one in Europe. The academic director is Professor Dr. iur. Dr. rer. pol. Dres. h.c. Franz Jürgen Säcker who is the editor and author of leading publications in the field of energy law.

Course Structure

The first Semester is dedicated to the fundamentals of energy Regulation. The technical and economic characteristics of the electricity and gas sector will be taught. Students will become acquainted with the technical and economic fundamentals to follow the second semester.

In the second semester, energy law will be taught. This includes the legal framework relevant for the building and the operation of plants generating electricity from fossil and from renewable sources, for the operation of grids as well as for the supply of energy. In the second semester furthermore negotiation strategies will be taught. The theoretical knowledge will be supplemented by excursions, e.g. to a power plant, a CCS-plant and to the EEX which is largest electricity stock exchange in Continental-Europe.

Advantages & Opportunities

TU Berlin

We are part of Technische Universität (TU) Berlin, which is one of Germany’s largest universities with currently more than 30,000 students. Committed to the principles of excellence and quality, TU Berlin offers outstanding performance in research and teaching and excellent skills for the students. Technical University of Berlin is consistently ranked among the top academic institutions in the world. Notable alumni include Carl Bosch, Gustav Hertz, and many other noble prize winners and entrepreneurs.

The MBL Degree

Upon completion of the course you will be conferred the academic degree Master in Business Law (MBL). The master programme focuses on a particular sector and incorporates practical legal, regulatory and business perspectives. The master on European and International Energy Law (MBL Energy) is one of the first programmes worldwide with a clear focus on energy and regulatory law as a special field of business law. Students gain skills and knowledge that reach far beyond the basics of energy law enabling them to successfully pursue careers in industry, law firms and regulatory authorities.

Energy Law

Among many different fields of law energy law is on the rise. Global climate change and the policy transitions translate into many areas of law: State aid and renewable energy promotion, emission trading systems, the legal framework for grid operation and last but not least the digitalization of the energy sector. But to understand energy law is to grasp the technical and economic foundations underlying it. Energy law is not only interdisciplinary in this classical sense, but also a true legal hybrid: At the challenging intersection of public and private law, competition and regulatory law energy law spans across the national, European and international level.

Our Master Programme gives lawyers and economists an excellent understanding of the complexities and intersections of energy sector. The program gives students and future employees a distinctive profile and qualifies them for a leading position in the energy sector. Small groups of up to 30 students allow for individual and effective learning.

Excursions

Regular excursions to relevant institutions and infrastructure operators are tightly built into the programme’s schedule. We believe hands-on experience strengthens the learning process and prepares students for their future employments Students will visit the largest electricity stock exchange in continental Europe, the EEX in Leipzig, the energy intensive undertaking AURUBIS in Hamburg, the photovoltaics manufacturer ALEO Solar in Prenzlau, the Vattenfall’s CHP plant in Berlin and the network operator 50Hertz in Berlin.



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