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The School of Civil and Building Engineering at Loughborough has an outstanding research reputation, 75% or its research was rated as world-leading or internationally excellent in the latest Government Research Excellence Framework. Read more
The School of Civil and Building Engineering at Loughborough has an outstanding research reputation, 75% or its research was rated as world-leading or internationally excellent in the latest Government Research Excellence Framework.

This programme is aimed at students training for a research career in energy and related areas, in either academia or industry. It focuses on energy demand reduction in the built environment, examining technical solutions within the wider social and economic context.

The course is closely linked with the London-Loughborough Centre for Doctoral Research in Energy Demand (the ‘LoLo CDT’) and is led by internationally-leading research staff at Loughborough University and the Energy Institute at University College, London.

The programme capitalises on the world-class building energy modelling and monitoring expertise in the Building Energy Research Group and the Royal Academy of Engineering Centre of Excellence in Sustainable Building Design. Students make use of our extensive laboratory and full-scale testing facilities, enriched by site visits, conferences, workshops and seminars by external experts. The programme begins with an intensive residential week studying Energy Demand in Context. Students attend lectures from energy experts in different fields, while working to produce a pathway satisfying the goal of a national 80% emissions reduction by 2050.

This is an intensive but rewarding course for future leaders in energy demand research; we accept approximately ten high calibre students each year.

Key Facts

- Research-led teaching from international experts. This unique programme is taught by acknowledged world experts in the field.

- An outstanding place to study. The School of Civil and Building Engineering is ranked 2nd in the UK for Building in the Times Good University Guide 2015.

- The MRes is an integral part of the London-Loughborough Centre for Doctoral Research in Energy Demand, which has just been funded by the Engineering and Physical Sciences Research Council for a further eight years.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/energy-demand-studies/

Programme modules

- Energy Demand in Context
The aim of this module is to provide an introduction into the many issues of energy demand in the built environment, setting them in the wider context of climate change policy and the history of energy use. Why is energy demand deduction complex? How did we get to where we are? What are the options for the future, and what is your possible role?

- Building Energy Systems and Models
This module will provide students with a thorough understanding of how systems and models of systems work at various levels, from heat transfer in materials and energy systems to the national building stock. They will understand approaches to modelling buildings, systems of energy demands and the influence of people. Students will be taught how to use building energy models and to interpret the results.

- Energy Theory, Measurement and Interpretation
The aims of this module are: to develop students understanding of the principles of measurement in the context of energy demand and associated factors; to explain how to interpret and represent the results accounting for uncertainties and limitations; and to apply this knowledge at different scales from individual components, to building, urban and national scale.

- Research Development and Dissemination
The module aims to provide students with the knowledge and skills needed to devise, plan and disseminate research projects. The module will provide skills in defining research questions and hypotheses; critically reviewing literature; planning a programme of research; communicating to different stakeholders including academia, industry and the public; preparing conference presentations and academic papers; engaging with the public; and producing an MRes Research Dissertation proposal. The module also includes project administration skills including, research ethics and confidentiality.

- Energy Demand: Society Economics and Policy
This module is delivered in the second semester in a series of weekly sessions at UCL. Its aim is to provide a broad understanding of the social, economic, and policy determinants of energy demand, taking into account areas such as pricing and demand, market structure, cost-benefit analysis, social environment and lifestyle, individual attitudes and behaviour, public-private goods, externalities and the policy cycle.

- Quantitative and Qualitative Research Methods
This module will provide students with the grounding in quantitative and qualitative research methods that they need to become effective researchers. The module will provide: skills in statistical analysis and use of the SPSS software; an ability to make informed choices about ways of handling data and to assess the appropriateness of particular analytical procedures; an understanding of questionnaire, interview and focus group design, delivery and analysis; and an ability to critically assess and evaluate the research of others. Whilst case-study applications will be relevant to building energy demand, the skills and knowledge acquired will be generic.

- Energy Demand Studies Research Dissertation
The aims of this module are to train students in the planning, execution and evaluation of a substantive research project; to train them in the art of persuading others of the importance of the research and outcomes and to project their work through academic writing. The dissertation enables students to explore a topic of interest in great depth.

Facilities

MRes students make use of the extensive laboratory facilities and test houses operated by the School of Civil and Building Engineering. The MRes combines measurements in buildings with modelling studies, allowing students to experience at first hand the ‘performance gap’ – the difference between modelling and real world behaviour.

Lectures at University College London provide access to world-class experts in energy economics and the societal context. Our staff pride themselves on their enthusiasm and availability to students, who often comment on this aspect of the course in their feedback.

How you will learn

The programme has a strong student-centred and research focus. Four taught modules set the context and provide subject-specific knowledge, whilst two further modules provide training in relevant research methods. A research dissertation forms half of the total credits and can lead to publishable work.

The MRes in Energy Demand Studies can be studied as a 1-year standalone programme and also forms the first year of the 4-year course for students accepted into the LoLo CDT, who then go on to study for a PhD. The opportunity exists for strong MRes students to join the LoLo Centre at the end of their MRes year.

- Assessment
The MRes is assessed entirely by coursework. A group presentation forms part of the assessment in the initial residential module; with the remainder assessed by an individual essay. Other modules include assessment by presentations and written work, including essays, reports and press releases.

The research project is assessed by a dissertation, an academic paper and a viva at which students present the work to an expert panel.

Careers and further study

Both the School of Civil and Building Engineering and the LoLo CDT have strong links with industry (e.g. Willmott Dixon, B&Q), policy makers (e.g. DECC), and the wider stake-holder community.
Dissertation projects are often linked to our industry sponsors’ interests, which provides a natural pathway to future employment and our visiting Royal Academy Professors and industry partners provide practice-based lectures and workshops.

Scholarships

This is a sought-after course, with a small intake, which ensures students’ access to highly qualified tuition. No scholarships are available for the standalone MRes.

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 90% 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/energy-demand-studies/

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Discover the real-world career opportunities in the energy sector with this MSc in Energy and Environmental Technology and Economics. Read more
Discover the real-world career opportunities in the energy sector with this MSc in Energy and Environmental Technology and Economics.

Who is it for?

Wherever you are, energy has an implication. This course is for students who want to engage with different types of settings to research and establish the energy, environmental and technological implications that exist within them. Energy and Environmental Technology and Economics students will care for the environment as a sustainable system and ultimately have a desire to improve conditions for the wider population.

Students come from a range of backgrounds including engineering, finance and economics – and from within the energy industry itself.

Objectives

This Masters degree has been designed to give you a wide perspective when it comes to analysing and forecasting the future for energy, environmental technology and economics. We engage with the industry so you gain a real-world understanding of the problems that exist, and we consider our own ethical responsibilities in relation to energy use.

Imagine a Grade 1-listed building such as the Guildhall in London. As an energy consultant your task is to analyse the site to make it more efficient. But there is a caveat: you cannot make any structural changes to the walls or the windows. The MSc Energy and Environmental Technology and Economics course gives you the tools to examine and address these kinds of challenges.

The MSc Energy and Environmental Technology and Economics course is not about learning academic theories. Instead we focus on the breadth of the subject in the real world. By engaging with practising businesses and trade associations we identify a range of perspectives, and look at the influence of a myriad of other forces at play, from regulation and government funding, to behavioural psychology and emerging technologies. Here are some of the questions the course poses:
-Does this new form of technology operate as it should?
-How does the UK relate to other European countries when it comes to energy efficiency?
-How does organisational psychology affect energy use within a company?
-How do you decide which energy contract to choose?
-What is the impact of a consumer society on personal energy use?

Placements

There is no formal requirement to do an industry-based placement as part of the programme. However, some students arrange to undertake their dissertation research within a company or within their part of the world. A recent student investigated the future of coal-fired generation in Turkey, and another student is combining a work placement at The World Energy Council with their dissertation.

Academic facilities

As part of the University of London you can become a member of Senate House Library for free with your student ID card.

Teaching and learning

Teaching is organised into modules comprising four consecutive day courses taken at a rate of one a month or so. This format makes the programme accessible for students who want to study part time while working.

Full-time students are also welcome. Whether you choose to take the course as a part-time or full-time student, we will offer a great deal of support when it comes to helping you prepare for the modules and project work. You will be expected to devote a significant part of your non-taught hours to project work as well as private study.

Our course is led by an exceptional group of experts in energy, supply, demand management and policies. As an example, one of our module leaders leads the UK contribution to writing international energy management standards and informing policy through the European Sector Forum for Energy Management. This forum looks at methodologies across the continent. There is also input to global standards development through the International Standards Organisation (ISO). At City we bring on board people with well-established academic careers as well as leaders from the energy industry. The programme has strong links with industry and commerce and involves many visiting lecturers who hold senior positions in their fields.

The Energy and Environmental Technology and Economics MSc gives you the opportunity to consider the role of International Energy Management Standards. You will explore the opportunities these standards provide for global service users and providers in relation to reducing energy costs and the environmental impact of energy use.

You will discover the range of current European and International Standards, explore why they are needed and how they are developed, and examine the benefits they deliver through case studies.

The UK has had a leading role in developing these standards in terms of both their writing and implementation. For example the Energy Audit standard, which forms part of the EU Energy Efficiency Directive, Article 8, mandates audits for private sector, non-SME organisations. In the UK this has been implemented as the Energy Savings Opportunities Scheme (ESOS).

Modules

Each course module is taught over four consecutive days of teaching with one module each month. Alongside the teaching you will have coursework to complete for each module. The modules run from October to April, and in the remaining time, you will concentrate on your dissertation, which forms a significant part of the programme.

The dissertation gives you the opportunity to create your own questions and to decide on your own area of interest. It should be a detailed investigation into a subject on energy supply and/or demand, with your own analysis and conclusions outlining the way forward. You may see the focus of your dissertation as a future career path, but whatever your area of study, these final few months of the degree should embody your vision of the future.

You will take four core modules and have six elective modules from which you can choose four topics from diverse subjects relating to energy supply and demand. These include energy in industry and the built environment, renewables, energy markets from the purchaser’s perspective and water supply and management. The latter has close parallels, and directly engages, with energy. You start the course with an introduction to energy and environmental issues and energy policies and economic dimensions in the first term, but you do not need to follow the course in any particular order from this point onwards.

If you are interested in sustainability, you have the option of taking up to two elective modules from the MSc in Environmental Strategy offered by the University of Surrey.

Completing eight modules and four examinations and four modular assessments will lead to a Postgraduate Diploma. Completing four core and four elective modules and a dissertation will lead to a Masters degree. If you are interested in this course may also be interested in the MSc Renewable Energy and Power Systems Management.

Core modules
-Introduction to energy and environmental issues (15 credits)
-Energy policies and economic dimensions (15 credits)
-The energy market from the purchaser's perspective (15 credits)
-Corporate energy management (15 credits)

Elective modules
-Energy, consumer goods and the home (15 credits)
-Transport energy and emissions (15 credits)
-Energy in industry and the built environment (15 credits)
-Renewable energy and sustainability (15 credits)
-Risk management (15 credits)
-Water supply and management (15 credits)

Career prospects

The story of energy is now part of public debate and climate change drives the international agenda. In the UK, there are additional energy supply issues, through the decline of existing nuclear capacity, growing imports of fossil fuels and challenging medium-term targets for renewables and low carbon supply.

Our priority is to make you employable in a range of sectors in which effective energy supply and demand side management has become an important consideration.

You will graduate with economic and market-based skills relevant to complying with relevant legislation and technical and engineering skills related to energy generation and management.

With strong industry links and working level experience from our exceptional team of expert lecturers, as well as the diverse modules on offer, you will be equipped to become a leader and entrepreneur in your chosen area of specialisation within the realm of energy management, supply or policy making.

Our graduates have gone on to hold high-ranking positions as energy consultants, data analysts and directors of corporate sustainability working within organisations including:
-AK Home Energy
-Enelco Environmental Technology
-Energy Institute
-Equinoxe Services Ltd
-Log Tech Consultancy
-Ofgem
-Peckham Power
-RWE NPower Renewables
-SCFG

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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. 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.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/globalenergymanagement/

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.

Pre-Masters Preparation Course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at the University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.
To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form , or to ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

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. It employs over 135,000 people directly and 500,000 in supporting roles.

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 Institute membership. 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

How much will I earn?

The range of typical starting salaries for an energy manager is £22,000 to £33,000 depending on the work sector and geographical area. Starting salaries may be higher for those with postgraduate qualifications and experience.*

*information is intended only as a guide.

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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This programme is aimed at anyone interested in learning more about the design and operation of low energy buildings with the added attraction of three modules dedicated to computer modelling of building performance – an essential skill for anyone wishing to work in today’s rapidly changing world of building engineering consultancy. Read more
This programme is aimed at anyone interested in learning more about the design and operation of low energy buildings with the added attraction of three modules dedicated to computer modelling of building performance – an essential skill for anyone wishing to work in today’s rapidly changing world of building engineering consultancy.

Modules are taught by world-leading experts in the field who have designed some of the world’s most innovative low energy buildings. These design experiences provide unique case study material which students find exciting and invaluable for their own research and design work.

The programme is accredited for further learning for CEng and professional membership by CIBSE and the Energy Institute and benefits from its links with the Royal Academy of Engineering Centre of Excellence in Sustainable Building Design.

The course attracts students from all over the world, including countries such as Greece, Iran, China, France, Germany and Colombia. This is attractive to potential employers who often have international offices around the world.

Key Facts

- An outstanding place to study. The School of Civil and Building Engineering is ranked 2nd in the UK for Building in the Times Good University Guide 2015

- 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-carbon-building-design/

Programme modules

- Building Energy Consumption [70% exam, 10 credits]
The aim of this module is for the student to understand the impact that climate, people, equipment selection and design have on energy consumption on a range of building sizes from domestic to large commercial.

- Renewable Energy and Low Carbon Technologies [70% exam, 15 credits]
The aims of this module are for the student to understand the principles of renewable energy and low carbon technologies and their integration into buildings, and to be given a perspective on the potential benefits and applications of these technologies.

- Building Control & Commissioning [70% exam, 10 credits]
The aims of this module are for the student to understand the application of automatic control in energy monitoring and commissioning and to examine the control problems in buildings and develop control strategies that will improve thermal comfort and building energy use.

- Concept Design [0% exam, 15 credits]
The aims of this module are for the student to be introduced to the process within which buildings are conceived and designed by undertaking the architecture design of a major building using multi-disciplinary input. Students will develop team skills through working in design groups to generate schematic concepts before developing the best. They will apply previous knowledge of building services and low carbon design in the selection process and carry out performance analysis. Students will work with 3D architectural and 3D mechanical, electrical and plumbing (MEP) systems within BIM software to further develop their concepts.

- Low Carbon Building Design [50% exam, 15 credits]
The module aims to introduce the principles of low and zero carbon building with special attention to the process of design and decision-making.

- Advanced Thermal Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of building thermal modelling and HVAC plant simulation, and be given a perspective on the applications of these techniques to the design process.

- Advanced Airflow Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of building airflow and ventilation modelling with respect to comfort and energy efficiency, and be given a perspective on the applications of these techniques to the design process.

- Advanced Lighting Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of lighting modelling in buildings with respect to comfort and energy efficiency, and be given a perspective on the application of these techniques to the design process.

- Research Project [0% exam, 60 credits]
The aim of this module is to provide the student with experience of the process and methodology of research by defining and studying (on an individual basis) a complex problem in a specialised area relating to Building Energy

- Research Methods in Building Performance [0% exam, 10 credits]
The aims of this module are for the student to become familiar with and comprehend the wide range of research methods and skills needed to investigate, understand and communicate building performance.

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.

These include: a fully controllable environmental chamber; sophisticated thermal and breathing manikins; an indoor solar simulator; a 'darkroom' facility to carry out optical and high dynamic range measurements; and full-scale houses for pressure testing and studying innovative heating and control strategies. A recent investment of £360k was made to purchase an extensive array of monitoring and measuring equipment for use during field studies.

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, thermal and daylight modelling software as well 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.

Careers and further study

Previous students have gone on to work for leading consulting engineering companies such as Arup, Pick Everad, Hoare Lea, Hulley and Kirkwood and SE Controls. Some of these companies offer work placements for students to undertake their research dissertations. Many visit the university to deliver lectures to our MSc students providing ideal opportunities for students to discuss employment opportunities.

Accreditation

The programme is accredited for further learning for CEng and professional membership by the CIBSE and Energy Institute.
The 'SE Controls prize for best overall performance' is awarded to the student graduating from this course with the highest overall mark. This presentation is made on graduation day.

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 90% 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-carbon-building-design/

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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’.

Areas studied include low energy building design, designing for suitable indoor air quality and thermal comfort, state-of-the-art control systems, and the design of building heating, ventilating, and air conditioning systems.

The course attracts students from all over the world, including countries such as Greece, Iran, China, France, Germany and Colombia. This is attractive to potential employers who often have international offices around the world.

Key Facts

- An outstanding place to study. The School of Civil and Building Engineering is ranked 2nd in the UK for Building in the Times Good University Guide 2015
- 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]
The aim of this module is to provide students from related engineering backgrounds with an understanding of the fundamentals of heat transfer, fluid flow and thermodynamics for application to buildings and their engineering systems.

- Thermal Comfort & Indoor Air Quality [70% exam, 15 credits]
The aim of this module is for the student to understand the principles and practice involved in the design of indoor environments, with respect to occupant thermal comfort and air quality.

- Building Thermal Loads & Systems [70% exam, 15 credits]
The aim of this module is for the student to understand the principles of building thermal load analysis and required systems for medium to large buildings.

- Building Energy Supply Systems [70% exam, 15 credits]
The aim of this module is for the student to be provided with a practical foundation in system design and analysis, by developing the students' understanding of thermal plant in buildings including air conditioning systems and systems for heat recovery.

- Building Control & Commissioning [70% exam, 10 credits]
The aims of this module are for the student to understand the application of automatic control in energy monitoring and commissioning and to examine the control problems in buildings and develop control strategies that will improve thermal comfort and building energy use.

- Concept Design [0% exam, 15 credits]
The aims of this module are for the student to be introduced to the process within which buildings are conceived and designed by undertaking the architecture design of a major building using multi-disciplinary input. Students will develop team skills through working in design groups to generate schematic concepts before developing the best. They will apply previous knowledge of building services and low carbon design in the selection process and carry out performance analysis. Students will work with 3D architectural and 3D mechanical, electrical and plumbing (MEP) systems within BIM software to further develop their concepts.

- Low Carbon Building Design [50% exam, 15 credits]
The module aims to introduce the principles of low and zero carbon building with special attention to the process of design and decision-making.

- Advanced Thermal Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of building thermal modelling and HVAC plant simulation, and be given a perspective on the applications of these techniques to the design process.

- Research Project [0% exam, 60 credits]
The aim of this module is to provide the student with experience of the process and methodology of research by defining and studying (on an individual basis) a complex problem in a specialised area relating to Building Energy

- Research Methods in Building Performance [0% exam, 10 credits]
The aims of this module are for the student to become familiar with and comprehend the wide range of research methods and skills needed to investigate, understand and communicate building performance.

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.

These include: a fully controllable environmental chamber; sophisticated thermal and breathing manikins; an indoor solar simulator; a 'darkroom' facility to carry out optical and high dynamic range measurements; and full-scale houses for pressure testing and studying innovative heating and control strategies. A recent investment of £360k was made to purchase an extensive array of monitoring and measuring equipment for use during field studies.

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.

Careers and further study

Previous students have gone on to work for leading consulting engineering companies such as Arup, Pick Everad, Hoare Lea, Cundall, Foster & Partners, and Atkins. Some of these companies offer work placements for students to undertake their research dissertations. Many visit the university to deliver lectures to our MSc students providing ideal opportunities for students to discuss employment opportunities.

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 90% were in employment and/or further study six months after graduating. Recent independent surveys of major employers have also consistently rated the School at the top nationally for civil engineering and construction graduates.

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

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This program helps to enhance the knowledge and competencies of building services and related professionals engaged in complex multi-disciplinary building projects that involve the provision of effective and efficient solutions to an ever-evolving urban built environment. Read more
This program helps to enhance the knowledge and competencies of building services and related professionals engaged in complex multi-disciplinary building projects that involve the provision of effective and efficient solutions to an ever-evolving urban built environment.

Program Objectives

Ever since the first appearance of the term ‘Intelligent Buildings’ in US in the early 1980s, it has grown into a major area of study for design and management professionals involved in major modern urban building projects. The start of the twenty-first century is witnessing rapid developments in intelligent building design technology and management. Building services engineers have to deal with complex multi-disciplinary building projects that involve the provision of effective and efficient solutions to an ever-evolving urban built environment. The provision of a quality and up-to-date postgraduate level program such as this MSc program helps to enhance the knowledge and competencies of professionals who are engaged in intelligent building projects in modern metropolises such as Hong Kong and major cities in Mainland China. The program aims to contribute towards the sustainability of today’s urban built environment.

The MSc program in Intelligent Building Technology and Management is a postgraduate degree program designed for professionals in the building services industry. They can be mechanical engineers, electrical engineers, building services engineers, civil engineers, architects and other building operation professionals who wish to pursue comprehensive studies in intelligent building design, operation and facilities management. Our program consists of core courses that equip students with the basic theme and foundation on intelligent building technology and management concepts, and a variety of electives that cover topics from safety and health issues, risk management, energy management, to impact analysis and use of advanced building materials, indoor air quality, facility management, etc. The program aims to provide a balance between both frontier technology updates and management strategies, in both a quantitative and qualitative way.

Curriculum

All students are required to take a total of 30 credits to complete the MSc(IBTM) program. The program consists of two core courses that all students are required to take. The remaining credits will be taken from the elective courses. Subject to the approval of the Program Director, students may take a maximum of nine credits of non-IBTM courses, which may include a maximum of six credits of CIEM courses from the MSc program in Civil Infrastructural Engineering and Management and a maximum of six credits of MESF or MECH courses offered by the Department of Mechanical and Aerospace Engineering as partial fulfillment of the graduation requirement.

Core Courses
-IBTM 5010 Intelligent Building Facility Management
-IBTM 5050 Intelligent Building System

Elective Courses
-IBTM 5150 Advanced HVAC Systems
-IBTM 5200 Advanced Energy Conversion Systems
-IBTM 5260 Architectural Acoustics and Audio Systems
-IBTM 5300 Computational Methods in Building Environment Design
-IBTM 5330 Energy Management in Buildings
-IBTM 5430 Indoor Air Quality Technology and Management
-IBTM 5460 Materials in Built Environment
-IBTM 5470 Mechanical Vibration
-IBTM 5500 Occupational Safety and Health Issues in Buildings
-IBTM 5530 Risk Management and Decision-Making in Intelligent Building
-IBTM 5550 Financial Assessment of Intelligent Building Systems
-IBTM 5620 Electrical Facilities in Intelligent Buildings
-IBTM 6010 Special Topics in Intelligent Building Systems *
-IBTM 6010A Special Topics in Intelligent Building Systems: Leadership & System Design
-IBTM 6010B Special topics in Intelligent Building Systems: Mechanical Vibration
-IBTM 6010C Special Topics in Intelligent Building Systems: Entrepreneurship and Smart Building Technologies
-IBTM 6010D Special Topics in Intelligent Building Systems: Micro Sensors for Smart Buildings
-IBTM 6950 Independent Studies *

All Core and Elective courses carry 3 credits each, except IBTM 6950 which is worth 3 or 6 credits.

* A maximum of six credits of IBTM 6010 and a maximum of six credits of IBTM 6950 (which may be taken once only) may be counted toward the graduation requirement.

** Courses are offered subject to needs and availability.

Facilities

Students can enjoy library support, computer support, sports facilities, and email account at no extra cost. Upon graduation, students could also apply for related alumni services.

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The Master of Science programme in Energy Engineering for an Environmentally Sustainable World (EEE-SW) is taught in English and offers a broad overview of the various technical issues related to energy and the environment. Read more

Mission and Goals

The Master of Science programme in Energy Engineering for an Environmentally Sustainable World (EEE-SW) is taught in English and offers a broad overview of the various technical issues related to energy and the environment. This special programme aims to prepare technicians capable of following and actively directing technological advances, operating effectively in a competitive and multi-disciplinary industrial context.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

Career Opportunities

Graduates find employment in numerous industrial sectors, including industries producing and distributing energy, thermal, thermal-electric, air-conditioning and refrigeration plant design and management companies, energy management in companies or bodies with production objectives which may be far-removed energy. A Master of Science Engineer has openings in research and development as well as in activities related to the feasibility study and design of large-scale plant, innovative processes and development of technologically advanced machines and components.

For the academic year 2014-2015 prospective students with a university qualification obtained abroad can apply only for the 1st semester. This study course does not accept applications for the 2nd semester.
Applicants are required to take the GRE test (Graduate Record Examination) through ETS DI code 6939 in due time to have test scores sent to Welcome Desk Piacenza (welcome.piacenza(at)polimi.it) within the last day of the application period.

Recommended minimum GRE scores to be achieved for admission:
Verbal Reasoning: 155
Quantitative Reasoning: 155
Analytical Writing: 4.0

Only students with a Degree earned at an Italian University can apply without taking GRE test and they can also apply for admission at the 2nd semester.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Energy_Engineering_01.pdf
The programme provides a mix of design, operational and management skills, with particular emphasis on system and process engineering related to the production of basic energy carriers (electricity, heat and fuels) under tight environmental constraints. Students will learn how to evaluate and solve engineering issues (thermal, environmental, mechanical, chemical, electrical) raised by energy conversion systems, as well as analyze and assess operational and maintenance issues. Particular attention will be devoted to renewable energy sources, non-conventional energy technologies, emission control, electric systems with distributed power generation, etc. Teaching is organized around 3 core aspects: modeling and simulation tools; interdisciplinary vision; problem-solving approach. The programme is taught in English.

Subjects*

1st year – 1st semester
- Advanced Mathematical methods for energy engineering
- Advanced Thermodynamics and Heat Transfer
- Fundamentals of chemical processes for energy and the environment
1st year – 2nd semester
- Turbomachinery and internal combustion engines
- Energy and environmental technologies for building systems
- Electric conversion of renewable energy sources
- Materials and manufacturing process for energy

2nd year – 1st semester
- Energy systems and low-carbon technologies
- Air pollution and control engineering
- Operation and control of machines for power generation
2nd year – 2nd semester
- Bio-energy and waste-to-energy technologies
- Smart grids and regulation for renewable energy sources
- Major independent project work

* The list and titles of the courses to be followed is undergoing a revision aimed at enhancing the focus of the programme on the connection between Energy and the Environment. This will entail a reduction of the credits devoted to manufacturing, operation and control of machines and an increase of the credits devoted to optimization methods, renewable energy, industrial ecology. The final list of courses to be taken for the Academic Year 2016-17 will be available in January 2016.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

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

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The 21st century calls for graduates with an interdisciplinary training and problem-solving competence in the fields of ecology, energy, resources etc. Read more
The 21st century calls for graduates with an interdisciplinary training and problem-solving competence in the fields of ecology, energy, resources etc. Process engineering, for example, with such fields as environmental- and energy engineering, is now seen as one of the key disciplines. It deals with the engineering required for a wide range of processes and the transformation of materials, in which raw materials are converted in a series of unit operations into salable intermediate and final products.

One focus of training within the discipline relates to the development and application of various environmental and energy technologies. Both environmental- and energy engineering are classified as green technologies, which have developed at an above-average rate in the last few years. That is due to growing social awareness for sustainability and the finite nature of our resources on the one hand and legal constraints on the other. The latter in particular call for innovative processes and technologies in response to today’s challenges. The Master program in Environmental, Process & Energy Engineering is designed to communicate the knowledge, methodology and problem-solving competence needed to tackle a very wide range of engineering problems in the above mentioned fields. With its commitment to bridge-building between the academic and the business worlds, Management Center Innsbruck also provides essential teaching in the increasingly important horizontal disciplines of law and economics, and the skills needed for today’s labor market.

Major Energy Engineering

In the light of dwindling energy resources and volatile energy prices, energy engineering has become an integral economic factor with enormous potential for growth, especially in such fields as energy generation from non-fossil primary energy sources, energy distribution and energy savings. MCI graduates with a specialization in Energy Engineering typically deal with a wide variety of processes, from conventional power plant engineering to the conversion of energy carriers and their various precursors, and decentral energy supply systems. The major in Energy Engineering caters for these market requirements by communicating the relevant knowledge and skills with a combination of in-depth teaching and practical applicability.

Given their interdisciplinary training and the program’s strong practical orientation, graduates are particularly well qualified to work as engineers at the interface with business and management with special reference to the following areas:

Energy trading, energy management & natural resources
Renewable energies
Glass industry
Oil industry
Consulting engineers, consulting & engineering
Paper and paper products
Chemicals
Gas and heating supply industries

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This course is for engineers who wish to develop their skills and knowledge in energy systems that will meet future energy needs. Read more
This course is for engineers who wish to develop their skills and knowledge in energy systems that will meet future energy needs. Such energy systems will need to be designed and implemented in accordance with principles of sustainability.

The course content is designed to be relevant to international, national and local government energy policies and strategies, and will be of value to anyone working in an energy related engineering discipline. The primary focus of the course is for graduates in building services, mechanical, electrical and chemical engineering.

The aims of the course are to:
- Present and take forward arguments for sustainability in the design and implementation of energy delivery systems

- Provide you with a broad basis of advanced understanding in the technologies that deliver high quality energy services with minimum environmental impact

- Design appropriate decentralised energy delivery systems, based on a range of criteria including environment, cost and engineering potential

- Develop your understanding of policy, market and institutional factors that promote or constrain innovation.

Excellent scholarship opportunity

Students who have accepted an offer for a full-time place on this course are encouraged to apply for LSBU's Kevin Herriott scholarship. Find out more about the Kevin Herriott scholarship.

Students on this course are also eligible to apply for a bursary from the Panasonic Trust fellowship scheme, worth £8,000.

See the website http://www.lsbu.ac.uk/courses/course-finder/sustainable-energy-systems-msc

Modules

An indicative list of topics covered on this course are:

- Renewable energy technologies 1
This module provides the necessary knowledge and skills to analyse the technical performance, environmental impact and economic feasibility of a variety of solar and wind powered systems. The module provides a systematic understanding of current knowledge, and a critical awareness of current problems and new insights at the forefront of professional practice; train students to evaluate critically current research and advanced scholarship in the field of solar and wind power; enables students to evaluate solar and wind power technologies, develop critiques of them and, where appropriate, to propose novel solutions.

- Renewable energy technologies 2
The module provides the necessary knowledge and skills to analyse the technical performance, environmental impact and economic feasibility of a number renewable energy technologies such as fuel cells, biofuels, geothermal, and micro-hydropower systems.

- Energy resource and use analysis
This module is designed to develop strategic and operational management skills in the fields of infrastructure asset management and project appraisal. It covers design life extensions, risk and asset management techniques for infrastructure, and techniques for physical appraisal of infrastructure, and their economic, environmental and social impacts.

- Electrical power
The module covers electrical power engineering as applied to the design of systems in buildings. In particular, this includes the connection of, and the effects of, small-scale embedded generation as might be employed to exploit renewable energy sources. The module aims to provide appreciation and understanding of electrical services design in buildings with particular reference to safety requirements and the effects of embedded generation on the supplier and the consumer.

- Sustainable refrigeration
The module introduces the principles of thermodynamics, and applies them to the study and design of energy efficient refrigeration systems. Vapour compression, absorption and other novel cycles are analysed and modelled Practical applications of sustainable refrigeration are investigated through case studies.

- Environmental management
The module is designed to develop understanding of the way in which human social and economic activities impact on the environment. The emphasis is on how managers can assess and influence the environmental impact of their particular organisation, with reference to key technologies and the political and legal constraints within which organisations must operate.

- Energy engineering project

Employability

The emergence of sustainable energy technologies, together with targets for implementation, mean that specialist engineers will increasingly be in demand to specify, design and install these systems. Many engineering consultancies and energy service companies are developing specialist sustainability teams, and already there is a shortage of skilled personnel.

Professional accreditation

The course provides the Masters level academic requirements leading to Chartered Engineer status when following on from an appropriate accredited BEng degree.

The course is accredited on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

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.

Professional links

Accreditation:
This course is accredited by the Chartered Institution of Building Services Engineers (CISBE) 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. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

The Chartered Institution of Building Services Engineers (CIBSE) is the standard setter and authority on building services engineering in the UK and overseas. It speaks for the profession and supports career development.

The Energy Institute is the professional members' body for the energy industry, delivering good practice and professionalism across the sector. Its purpose is to develop and disseminate knowledge, skills and good practice towards a safer, more secure and sustainable energy system.

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Gain the expertise to determine if buildings are achieving their required energy efficiency targets, and how to go about improving them. Read more
Gain the expertise to determine if buildings are achieving their required energy efficiency targets, and how to go about improving them.

The energy performance of today's new buildings must withstand far more scrutiny than ever before. Those involved or investing in construction projects will need an increasing awareness of these factors to maintain compliance with the law, as tougher EU and UK directives for building performance are drawn up and legislated.

You will use the latest technologies to evaluate building performance, including software to model 2D thermal movement or track moisture. You will also visit real-life testing sites and help set up and carry out some of the procedures yourself, investigating heat loss, heat transfer, moisture development and thermal bridges.

Your course will provide an essential platform if you are wanting to evaluate the energy efficiency of buildings, or if you want to get involved in building forensics or surveying.

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

Mature Applicants

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

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

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

Careers

New legislation and the need for more energy efficient buildings will ensure the demand for experts in the design and evaluation of high-performing homes and workplaces continues to grow. Specialist knowledge in this field should help if you already work in surveying, building forensics and energy efficient assessment to further your career.

- Sustainable Property Developer
- Energy Efficient Assessor
- Building Forensic Assessor
- Building Surveyor

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

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

Course Benefits

You'll be exposed to the latest techniques and technologies to measure heat loss and energy transfer, as well as the latest cutting-edge research from our Sustainability Institute and our School of Built Environment & Engineering.

Our teaching staff are involved in building performance evaluation on national research schemes. Our University is frequently commissioned by Innovate UK, a leading technology advisory body, to analyse the best energy performing buildings in the country, which underlines our expertise in this area. Our academics will feed these findings directly into your learning, giving you access to first-class research and a rich variety of contacts to network with.

You will also have access to our state-of-the-art building performance testing kits to analyse buildings in the field, such as thermal imaging cameras and drone technology, and you will work with the latest 2D and dynamic simulation modelling software to measure standards and sharpen your experience of working with the latest technology.

Core Modules

Building Performance & Evaluation
Develop the knowledge of a range of tools and techniques to analyse the energy performance of a building.

Building Environmental Science & Modelling
Gain an overview of the science that governs how buildings perform in relation to occupant comfort, health, energy use and service life.

Chris Gorse

Senior Lecturer

"You will be exposed to the latest methods of testing and monitoring buildings. We have researchers who have informed building performance evaluation and their knowledge feeds directly into this course."

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

Facilities

- Design Studios
Our modern multi-media studios include a dedicated CAD suite and specialist software, such as REVIT, allowing you to develop skills in 3D design and building information modelling.

- Library
Our Library is one of the only university libraries in the UK open 24/7, every day of the year. However you like to work, our Library has you covered with group and silent study areas, extensive e-learning resources and PC suites.

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

- Broadcasting Place
Keeping fit is easy at Leeds Beckett - our fitness suites are easy to get to, kitted out with all the latest technology and available to all sports members.

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

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

Key benefits

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

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

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

Course detail

- Description -

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

- Purpose -

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

- Teaching and learning assessment -

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

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

Career options

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

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

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

Why study at Ulster?

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

Flexible payment

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

Scholarships

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

English Language Tuition

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

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

Program Background

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

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

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

Building Sustainability

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

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

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

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

Students and graduates

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

Curriculum

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

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

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

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This course is approved by CIBSE and the Energy Institute and accredited by the IMechE. COURSE AIMS. Read more
This course is approved by CIBSE and the Energy Institute and accredited by the IMechE.

COURSE AIMS
The aim of this programme is firstly to respond to the worldwide demand for building services engineers and managers who have a sound knowledge of engineering principles and the ability to apply this knowledge to the complex situations prevailing within the building services industry.

In addition, in recent years it has become increasingly recognised that the design and operation of buildings need to take greater account of energy consumption. For example, the Government’s white paper “Our Energy Future - Creating A Low Carbon Economy” states, “Policies to raise the energy efficiency of products and buildings will have an important role.” One of the explicit strategies identified in the paper is the achievement of higher standards within new and existing buildings. Finally, by 2006 the EU Directive on the Energy Performance of Buildings must be implemented; this will require a declaration of the energy performance and increased attention to the continued improvement in performance.

Consequently, there is a growing need for building services engineering professionals with understanding of the means to reduce the reliance on non-sustainable energy. This MSc programme aims to fulfil both challenges faced by building services engineers.

COURSE MODULES (ALL CORE)

Acoustics, Fire, Drainage and Lifts
Electrical Services & Lighting Design
Building Heat Transfer & Air Conditioning
Energy Conversion Technologies
Energy Efficient Ventilation for Buildings
Sustainable Energy Technologies
Building Services Design & Management
Dissertation

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

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

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

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

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

Mature Applicants

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

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

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

Careers

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

- Building Surveyor
- Architectural Technician
- Mechanical Engineer

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

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

Course Benefits

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

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

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

Core Modules

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

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

Professor Chris Gorse

Professor of Construction and Project Management

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

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

Facilities

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

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

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

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

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

Course details

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

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

What you study

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

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

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

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

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

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

Modules offered may vary.

Teaching

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

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

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

Employability

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

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

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

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

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