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Masters Degrees (Energy Economic)

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Overview. This is a 12 month full-time Masters degree (See http://www.postgraduate.hw.ac.uk/prog/msc-renewable-energy-development-red-/ ) course taught at our Orkney Campus. Read more

Overview

This is a 12 month full-time Masters degree (See http://www.postgraduate.hw.ac.uk/prog/msc-renewable-energy-development-red-/ ) course taught at our Orkney Campus. It involves studying 8 taught courses and completing a research dissertation equivalent to 4 taught courses. If you can demonstrate that you have already mastered the subject, you may apply for an exemption from one of the taught courses and undertake a Design Project instead.

For more information visit http://www.hw.ac.uk/schools/life-sciences/research/icit.htm

Distance learning

The Renewable Energy Development MSc/Diploma is also available for independent distance learning. For distance learners, the main difference is that you will undertake the Development Project alone rather than as part of a group. You can still obtain the full MSc in Renewable Energy Development, or you can opt to study fewer courses, depending on your needs.

Programme content

- Energy in the 21st Century

This course is designed to give you a broad understanding of the environmental, political and socio-economic context for current developments in renewable energy. The course examines the extent of current energy resources and how energy markets function. It covers some energy basics you will need for the rest of the programme (e.g. thermodynamics, efficiency conversions) as well as environmental issues associated with energy use, climate change and the political and policy challenges involved in managing energy supply and achieving energy security.

- Economics of renewable energy

This course gives an understanding of the economic principles and mechanisms which affect energy markets today. It covers price mechanisms, the economics of extracting energy and the cost-efficiency of renewable energy technologies. You will learn about economic instruments used by policy-makers to address environment and energy issues, economic incentives to stimulate renewable energy development and about environmental valuation.

- Environmental Policy & Risk

This course explores the legal and policy context in which renewable energy is being exploited. You will gain an understanding of international law, particularly the Law of the Sea, property rights and how these relate to different energy resources. The course also looks at regulatory issues at the international, European and UK level, which affect how energy developments are taken forward, as well as risk assessment and management in the context of renewable energy developments.

- Environmental Processes

Particularly for those without a natural science background, this course provides a broad overview of the environmental processes which are fundamental to an understanding of renewable energy resources and their exploitation. You will study energy flows in the environment, environmental disturbance associated with energy use, and an introduction to the science of climate change. You will also learn about ecosystems and ecological processes including population dynamics and how ecosystems affect and interact with energy generation.

- Renewable Technology I: Generation

This course explores how energy is extracted from natural resources: solar, biomass, hydro, wind, wave and tide. It examines how to assess and measure the resources, and the engineering solutions which have been developed to extract energy from them. You will develop an understanding of the technical challenges and current issues affecting the future development of the renewable energy sector.

- Renewable Technology II: Integration

This course explores the technical aspects of generating renewable energy and integrating it into distribution networks. You will learn about the electricity grid and how electrical power and distribution systems work. You will find out about different renewable fuel sources and end uses, and the challenges of energy storage.

- Development Appraisal

Looking at what happens when renewable energy technologies are deployed, this course examines development constraints and opportunities: policy and regulatory issues (including strategic environmental assessment, environmental impact assessment, landscape assessment, capacity issues and the planning system). It also looks at the financial aspects (valuation of capital assets, financing projects and the costs of generating electricity) and at project management.

- Development Project

This is a team project, where students have the opportunity to apply what they have learned through the other courses in relation to a hypothetical project. You have to look at a range of issues including resource assessment, site selection, development layout, consents, planning and economic appraisal, applying the knowledge and tools you have studied.

- Optional design project

For students who can demonstrate existing knowledge covered by one of the courses, there is the option of understanding a design project supervised by one of our engineers.

- Dissertation

This research project (equivalent in assessment to 4 taught courses) allows you to focus on a specific area of interest, with opportunities to collaborate with businesses and other stakeholders. You choose your dissertation subject, in discussion with your supervisor.

- Additional information

If you study at our Orkney Campus, you will also benefit from a number of activities including guest lectures and practical sessions, which help to develop your skills and knowledge in your field of study, and offer opportunities to meet developers and others involved in the renewable energy industry.

Scholarships available

We have a number of fully funded Scottish Funding Council (SFC) scholarships available for students resident in Scotland applying for Renewable Energy Development (RED) MSc. Find out more about this scholarship and how to apply http://www.hw.ac.uk/student-life/scholarships/postgraduate-funded-places.htm .

English language requirements

If your first language is not English, or your first degree was not taught in English, we’ll need to see evidence of your English language ability. The minimum requirement for English language is IELTS 6.5 or equivalent. We offer a range of English language courses to help you meet the English language requirement prior to starting your masters programme:

- 14 weeks English (for IELTS of 5.5 with no more than one skill at 4.5);

- 10 weeks English (for IELTS of 5.5 with minimum of 5.0 in all skills);

- 6 weeks English (for IELTS 5.5 with minimum of 5.5 in reading & writing and minimum of 5.0 in speaking & listening)

Distance learning students

Please note that independent distance learning students who access their studies online will be expected to have access to a PC/laptop and internet.

Find information on Fees and Scholarships here http://www.postgraduate.hw.ac.uk/prog/msc-renewable-energy-development-red-/



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This is a 12 month full-time MSc degree course (See http://www.postgraduate.hw.ac.uk/prog/msc-marine-renewable-energy/#overview ) taught at our Orkney Campus. Read more

Overview

This is a 12 month full-time MSc degree course (See http://www.postgraduate.hw.ac.uk/prog/msc-marine-renewable-energy/#overview ) taught at our Orkney Campus. It involves studying 8 taught courses. If you can demonstrate that you have already mastered the subject, you may apply for an exemption from one of the taught courses and undertake a Design Project instead. The MSc programme is completed with a research dissertation equivalent to 4 taught courses.

For more information visit http://www.hw.ac.uk/schools/life-sciences/research/icit.htm

Distance Learning

The Marine Renewable Energy MSc/Diploma is also available for independent distance learning. For distance learners, the main difference is that you will undertake the Development Project alone rather than as part of a group. You can still obtain the full MSc in Marine Renewable Energy, or you can opt to study fewer courses, depending on your needs.

Scholarships available

We have a number of fully funded Scottish Funding Council (SFC) scholarships available for students resident in Scotland applying for Marine Renewable Energy. Find out more about this scholarship and how to apply http://www.hw.ac.uk/student-life/scholarships/postgraduate-funded-places.htm .

Programme content

The Diploma and MSc degree course involves studying the 8 taught courses outlined below. If a student can demonstrate that they have already mastered the subject, they may undertake a Development Project instead of one of these courses.

- Energy in the 21st Century
This course is designed to give you a broad understanding of the environmental, political and socio-economic context for current developments in renewable energy. The course examines the extent of current energy resources and how energy markets function. It covers some energy basics you will need for the rest of the programme (e.g. thermodynamics, efficiency conversions) as well as environmental issues associated with energy use, climate change and the political and policy challenges involved in managing energy supply and achieving energy security.

- Economics of renewable energy
This course gives an understanding of the economic principles and mechanisms which affect energy markets today. It covers price mechanisms, the economics of extracting energy and the cost-efficiency of renewable energy technologies. You will learn about economic instruments used by policy-makers to address environment and energy issues, economic incentives to stimulate renewable energy development and about environmental valuation.

- Environmental Policy & Risk
This course explores the legal and policy context in which renewable energy is being exploited. You will gain an understanding of international law, particularly the Law of the Sea, property rights and how these relate to different energy resources. The course also looks at regulatory issues at the international, European and UK level, which affect how energy developments are taken forward, as well as risk assessment and management in the context of renewable energy developments.

- Oceanography & Marine Biology
This course is designed to give you an understanding of the science of waves and tides, and how this affects efforts to exploit energy from these resources. You will also learn about marine ecosystems and how these may be impacted by energy extraction and about the challenges and impacts associated with carrying out engineering operations in the marine environment.

- Marine Renewable Technologies
You will gain an understanding of renewable energy technologies which exploit wind, wave and tidal resources. The focus is on technical design issues which developers face operating in the marine environment, as well as the logistics of installation, operations and maintenance of marine energy converters.

- Renewable Technology: Integration
This course explores the technical aspects of generating renewable energy and integrating it into distribution networks. You will learn about the electricity grid and how electrical power and distribution systems work. You will find out about different renewable fuel sources and end uses, and the challenges of energy storage.

- Development Appraisal
Looking at what happens when renewable energy technologies are deployed, this course examines development constraints and opportunities: policy and regulatory issues (including strategic environmental assessment, environmental impact assessment, landscape assessment, capacity issues and the planning system). It also looks at the financial aspects (valuation of capital asses, financing projects and the costs of generating electricity) and at project management.

- Development Project
This is a team project, where students have the opportunity to apply what they have learned through the other courses in relation to a hypothetical project. You have to look at a range of issues including resource assessment, site selection, development layout, consents, planning and economic appraisal, applying the knowledge and tools you have studied.

- Dissertation
This research project (equivalent in assessment to 4 taught courses) allows you to focus on a specific area of interest, with opportunities to collaborate with businesses and other stakeholders. You choose your dissertation subject, in discussion with your supervisor.

- Additional information
If you study at our Orkney Campus, you will also benefit from a number of activities including guest lectures and practical sessions which help to develop your skills and knowledge in your field of study, and offer opportunities to meet developers and other involved in the renewable energy industry.

English language requirements

If your first language is not English, or your first degree was not taught in English, we’ll need to see evidence of your English language ability. The minimum requirement for English language is IELTS 6.5 or equivalent. We offer a range of English language courses (http://www.hw.ac.uk/study/english.htm ) to help you meet the English language requirement prior to starting your masters programme:
- 14 weeks English (for IELTS of 5.5 with no more than one skill at 4.5);
- 10 weeks English (for IELTS of 5.5 with minimum of 5.0 in all skills);
- 6 weeks English (for IELTS 5.5 with minimum of 5.5 in reading & writing and minimum of 5.0 in speaking & listening)

Distance learning students

Please note that independent distance learning students who access their studies online will be expected to have access to a PC/laptop and internet.

Find information on Fees and Scholarships here http://www.postgraduate.hw.ac.uk/prog/msc-marine-renewable-energy/#overview

Visit the Marine Renewable Energy MSc/Diploma page on the Heriot-Watt University web site for more details!

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The. Master in Global Energy Transition and Governance. aims to give a. deep understanding of the complexity of the current energy transformations in Europe and worldwide. Read more

The Master in Global Energy Transition and Governance aims to give a deep understanding of the complexity of the current energy transformations in Europe and worldwide. The programme offers a unique, multidisciplinary approach which distinguishes it from other Master courses in the field of energy studies: It analyses the links between the different levels of energy governance, from an international to a local level, offering problem-focused learning at the crossroads of theory and practice. The one-year Master programme stretches over three terms and takes place in two study locations: Nice and Berlin. Working language is English.

Overview of the year

Nice

The first term in Nice encompasses classes on the basics of the four energy modules (International energy governance, Economic energy governance, the EU energy governance and Energy and territories). Each module is complemented by seminars dealing with current energy issues. An academic or professional expert is invited for each event.

Berlin

For their second term students move on to Berlin where teaching in the four modules continues in the form of workshops. Each module organises a half-ay workshop with an expert. Students prepare the workshops in group work delivering papers on themes linked to the topic of the seminar (climate negotiations, energy stock exchange, the role of the EU interconnections in the European energy market, the EU funds and the territorial energy policy). To better understand the local energy challenges in the framework of the German Energy Transition Field, visits will also be organised in co-peration with local institutions and companies. Another focus of this term will be put on the methodology classes, one dedicated to the research work and the Master'sthesis, the second one to project management.

Nice

In April students return to Nice. The third term aims at deepening their knowledge on the four energy modules. A special focus is also given to the methodological support for the students' work on their  thesis including individual meetings with the academic supervisors. In the two simulations the participants will forge their negotiation techniques with regard to the construction of wind farms at local level and work out of a strategy for an international energy cooperation. Written and oral exams in June will conclude this term.

During this term students will finalise their work on their thesis in close contact with their academic supervisors. The thesis will be delivered in mid-June and defended at the end of June.

Curriculum

International energy governance

This module delivers the theoretical knowledge on the main international energy related issues and conflicts (resource curse, neoinstitutionalism, developmentalism, weak/strong States etc.).

It also provides the participants with concrete examples of the emergence and regulation of energy conflicts worldwide in order to analyse better how they exert pressure on the security and diversification of the energy supply.

With their graduation, students become part of CIFE’s worldwide Alumni network.

Economic energy governance

Economic and market fundamentals are applied to the energy sector in order to understand the current multiple national, regional, and local low carbon energy pathways in the world.

The module examines how the different markets are regulated and how they influence the transitions from fossil fuels to renewable energies. The economic perspective will highlight the role of liberalisation, privatisation and regulation of the sector.

European energy governance

The aim of this module is to highlight the EU priorities and its decision-making process regarding clean energy transition in Europe, thus helping to understand political economy factors that both inhibit and accelerate it.

While focusing on how the different EU policies challenge institutional architectures and multilevel governance schemes, the module provides an insight into issues currently facing European policy makers such as social acceptance, sustainability of renewable energies as well as rapid advancement in clean energy technologies.

Energy and territories

Participants will examine how EU regions and cities and more generally territories develop their own low carbon strategy at the crossroads of many policies (housing, waste management, transport, fuel poverty, environment and energy) and in the framework of a multilevel governance system.

Concrete examples of local and regional strategies will be delivered in order to analyse the levers and obstacles for more decentralisation.

Methodology modules

Students will acquire skills in research methodology, energy project management and the elaboration of energy strategies. They will concretely experiment different methodological tools: first of all through the research work for their thesis, second thanks to the methodological tools of project management. Students will be involved in a simulation game in which they will have to decide on the construction of a wind park in a territory. In a negotiation game, participants will have to elaborate a common strategy in the perspective of international energy cooperation.

Thesis

For their thesis participants will carry out a profound research work on an energy issue, chosen and elaborated in regular coordination with their supervisor.

The thesis will require the application of the methodological tools which the students have acquired during the programme.

The academic work will involve in-depth desk research, possible interviews with external partners and the writing of a thesis of approximately 17,000 words. Candidates will defend their thesis in an oral exam.

Applications and Scholarships

Candidates can submit their application dossier by using the form available on the Institute's website : http://www.ie-ei.eu/en/11/Registration

They should also include all the relevant documents, or send them by post or email. An academic committee meets regularly in order to review complete applications.

A limited number of scholarship funds can be awarded to particularly qualified candidates to cover some of the costs related to studies or accommodation.

The deadline for applications is 22 July 2018.



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Rational and economic use of energy, with the least damage to the environment, is vital for the future of our planet. Achieving energy efficiency and reducing environmental pollution are increasingly important aspects of professional engineering. Read more

Rational and economic use of energy, with the least damage to the environment, is vital for the future of our planet. Achieving energy efficiency and reducing environmental pollution are increasingly important aspects of professional engineering. This course equips graduates and practicing engineers with an in-depth understanding of the fundamental issues of energy thrift in the industrial and commercial sectors.

Who is it for?

The course has been developed to provide up-to-date technical knowledge and skills required for achieving the better management of energy, designing of energy-efficient systems and processes, utilisation of renewable energy sources and the cost effective reduction and control of pollution. This knowledge can be directly applied to help various sectors of the economy in improving their competitiveness in the face of dwindling resources, probable substantial increases in unit energy costs and the urgent requirement to comply with the increasingly restrictive pollution control standards.

The course is suitable for engineering and applied science graduates who wish to embark on successful careers as environmentally aware energy professionals.

Why this course?

The MSc in Energy Systems and Thermal Processes, established in 1972, was the first of its type to be instituted in Europe, and remains the most prestigious degree in technical energy management in the UK. The course has evolved over the past 40 years from discussions with industrial experts, employers, sponsors and previous students. The content of the study programme is updated regularly to reflect changes arising from technical advances, economic factors and changes in legislation, regulations and standards. 

In addition to management, communication, team work and research skills, each student will attain at least the following outcomes from this degree course:

  • Demonstrate competence in the current concepts and theories governing energy flows, heat transfer and energy conversions
  • Demonstrate an in-depth understanding of the issues involved in the management of energy in industry and commerce, and the design of energy-efficient systems and processes
  • Effectively acquire and critically review information from various sources
  • Apply effectively learnt techniques and technologies to achieve cost-effective conservation of energy and reduction of environmental pollution in industrial/commercial applications
  • Assess the potential and viability of energy policies and projects and making informed judgement in the absence of complete data.

Informed by Industry

We have a world-class reputation for its industrial-scale research facilities and pilot-scale demonstration programmes in the energy area. Close engagement with the energy sector over the last 40 years has produced long-standing strategic partnerships with the sectors most prominent organisations including Alstom Power, BP, Cummins Power Generation, Doosan Babcock, E.ON, npower, Rolls Royce, Shell, Siemens and Total.

Our strategic links with industry ensure that all of the materials taught on the course are relevant, timely and meet the needs of organisations competing within the energy sector. This industry-led education makes our graduates some of the most desirable in the world for energy companies to recruit.

Accreditation

This MSc degree is accredited by Institution of Mechanical Engineers (IMechE).

Course details

The taught programme for the Energy Systems and Thermal Processes masters is generally delivered from October to March and is comprised of eight compulsory taught modules and one optional module to select from a choice of three. A typical module consists of five days of intensive postgraduate level structured lectures, tutorials or workshops covering advanced aspects of each subject.

Students on the part-time programme will complete all of the compulsory modules based on a flexible schedule that will be agreed with the Course Director.

Group project

The Energy Audit group project is part of the Energy Management for Industry module. It requires teams of students to carry out energy audits on selected industrial/commercial sites. Teams must produce prioritised recommendations to reduce energy costs. Each team is expected to present findings and conclusions at various stages and submit a final report for assessment. 

Part-time students are encouraged to participate in a group project as it provides a wealth of learning opportunities. However, an option of an individual dissertation is available if agreed with the Course Director.

Individual project

The individual research project allows you to delve deeper into a specific area of interest. As our academic research is so closely related to industry, it is common for our industrial partners to put forward real practical problems or areas of development as potential research topics. The individual research project component takes place between April and August.

For part-time students, it is common that their research project is undertaken in collaboration with their place of work. 

Research projects will involve designs, computer simulations, feasibility assessments, reviews, practical evaluations and experimental investigations.

Typical areas of research include: 

  • Modelling of energy-conversion systems and thermal processes
  • Renewable energy utilisation schemes
  • Control of environmental pollution
  • Combustion and heat transfer processes.

Recent individual research projects Include:

  • Feasibility study for a mini hydropower plant in Peru
  • Developing a self-powered generator for energy usage
  • Feasibility assessment of Installing photovoltaic systems in a house in Alicante, Spain
  • Biomass gasification plants for decentralised small scale rural electrification in Northern Ghana: Assessing the economic viability of its utilisation
  • Thermal analysis on a vertical axis wind turbine generator
  • Investigation of jet pump performance under multiphase flow conditions.

Assessment

Taught modules 40%, Group projects 20%, Individual project 40%

Your career

There is a considerable demand for environmentally aware energy specialists with in-depth technical knowledge and practical skills. Our industry-led education makes graduates of this program some of the most desirable in the world for recruitment by companies and organisations competing in the energy sector.

Graduates of the course have been successful in gaining employment in energy, environmental and engineering consultancies and design practices, research organisations and government departments. A number of our MSc graduates follow further research studies leading to PhD degrees at Cranfield and in other academic institutions.

Recent graduates have gained positions with:

  • Alstom Power
  • Blue Circle Cement
  • British Gas
  • Ceylon Electricity Board, Sri Lanka
  • DELPHI Automotive Systems, Mexico
  • Electrolux, Denmark
  • Energy Saving Trust
  • Environmental Agency
  • Ministry of Energy (Botswana, Jordan, Tanzania, Uganda)
  • Powergen
  • Scottish Power
  • Unilever.


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

About the course

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

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

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

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

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

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

Aims

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

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

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

Initial programme learning outcomes

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

Knowledge and understanding of:

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

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

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

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

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

Course Content

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

Compulsory modules:

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

Teaching

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

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

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

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

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

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

Assessment

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

Special Features

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

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

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

Women in Engineering and Computing Programme

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

Accreditation

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

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

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

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

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

Experts

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

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

Course Structure

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

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

Advantages & Opportunities

TU Berlin

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

The MBL Degree

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

Energy Law

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

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

Excursions

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



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Who is it for?. 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. Read more

Who is it for?

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 MSc 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.

The Energy and Environmental Technology and Economics MSc will help you:

  • Understand the technologies for energy production: fossil fuels, nuclear and renewable
  • Assess the economic factors affecting energy production and supply
  • Know the economics governing consumer use and purchase of energy
  • Analyse and forecast the future of energy, environmental technology and economics
  • Evaluate the environmental effects of energy and other industrial production
  • Gain a real-world understanding of the issues – from regulation and government funding, to behavioural psychology and emerging technologies
  • Understand the technologies for reducing environmental impact and their economics
  • Consider ethical responsibilities in relation to energy use
  • Rapidly assess the most important features of a new technology
  • Integrate information across a broad range of subject areas, from engineering
  • through economics to risk assessment
  • Identify a range of perspectives, and look at the influence of a myriad of other forces at play by engaging with practising businesses and trade associations
  • The discipline of auditing energy consumption
  • Monitoring performance and engaging with international energy management standards
  • Relate to professionals from a wide variety of backgrounds, academic, commercial and industrial, from professors in engineering and mathematics through to consulting engineers to senior managers and directors of large, publicly quoted companies.

Accreditation

The course is accredited by the Energy Institute and fulfils the learning requirement for Chartered Engineer status.

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.

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.

You will be assessed by examination on the four core modules and you will need to complete a post modular assessment (a 2,000 to 3,000-word essay) on all of the eight modules.

Modules

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.

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.

You are normally required to complete all the taught modules successfully before progressing to the dissertation.

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.

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.

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, economics and finance (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).


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One of major challenges of the last decade was to achieve a sustaniable energy supply - for now and in the future. At the same time, the amount of renewable energy has been increasing simultaneously and has, thus, raised the question of how to sucessfully integrate renewable energy in already existing energy systems. Read more

One of major challenges of the last decade was to achieve a sustaniable energy supply - for now and in the future. At the same time, the amount of renewable energy has been increasing simultaneously and has, thus, raised the question of how to sucessfully integrate renewable energy in already existing energy systems.

The part-time MSc Renewable Energy Systems is the first cross-border program in Europe dealing with the future issues of alternative energy production and the intregration of renewables. Since 2005, TU Wien, Energiepark Bruck/Leitha and further partner organisations across Europe have offered this practice-oriented international Master’s program.

Contents

This Master's program focuses on three aspects in particular: technological innovations, management of sustainable energy systems, and economic as well as legal frameworks.

  • Technological Innovations: Participants acquire a basic technical knowledge in the area of alternative energy production. The fast-changing nature and development of this sector are specifically considered. Focal points are solar energy, wind power, biomass, biogas, small hydropower stations, photovoltaics, bio fuel, and geothermal technology as well as issues, such as energy saving and energy efficiency.
  • Management of Sustainable Energy Systems: Conveys skills, such as project development, project financing, project operation, and knowledge on business management. Furthermore, participants obtain a detailed market overview on selected European countries.
  • General Economic and Legal Framework: Participants obtain knowledge on the general economic and legal frameworks of European Union as well as national directives and legal provisions of selected European countries.

Modules

  • Introduction on Renewable Energy
  • Biomass, Biofuels and Biogas
  • Solar Energy – Solar Heating and Photovoltaics
  • Geothermal Energy, Wind Power, and Small Hydro Power
  • Efficient Energy Use and Thermal Building Optimization
  • General Legal and Economical Frameworks
  • Integration of Renewable Energy Sources into the Energy System
  • Management and Soft Skills
  • Perspectives on the Use of Renewable Energy
  • Master´s Thesis

More details on the contents and modules can be found here.

Country Modules

To provide the participants with in-depth knowledge on energy markets in Europe, tailor-made country modules in selected European countries are an essential part of this MSc program. For more information in the country modules, please click here.

Target Group

Individuals within companies, organisations, and authorities who are engaged in planning, operating or evaluation of renewable energy or who are involved in financing, promotion, legal licensing, operation of facilities for the use of renewable energy or environmental issues.

Program Objectives/Goals

With the MSc Program you acquire knowledge and competence for

  • the design of plants for the use of renewable energy sources from economic and legal point-of-view
  • the operation of plants for the use of renewable energy sources,
  • the future assessment of environmental, technological and economic developments of renewable energy systems.


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What's the Master of Engineering. Energy all about? . The programme addresses every . multidisciplinary aspect of energy. Read more

What's the Master of Engineering: Energy all about? 

The programme addresses every multidisciplinary aspect of energy. There is extensive coverage of the possibilities and limitations of the various energy technologies, but also of the environmental consequences and economic aspects.

The multidisciplinary master prepares you for jobs related to research and development, policy and management, and industrial applications. The master is supported by EnergyVille, an association of the Flemish research institutes KU Leuven, VITO and imec in the field of sustainable energy and intelligent energy systems.

Both industry and research are increasingly looking for multidisciplinary engineers. The Master of Science in Engineering: Energy provides sound training in energy engineering. It addresses the main issues of mechanical and electrical engineering in a balanced and integrated manner, together with socio-economic preconditions that have an impact on the engineer’s sphere of action.

This programme teaches you to focus on technological possibilities without losing sight of the environmental and socio-economicaspects of your chosen field. The programme has an international scope and collaborates with partner universities excelling in the energy domain.

Structure

The first year consists of electrical and mechanical engineering courses, as well as more general socio-economic, energy-related subjects and integrated problem solving and projects.

In the second year, you continue your specialisation by, among other things, writing a master's thesis on a subject related to electrical energy, thermomechanical energy, or more general technicaleconomic aspects. You can also participate in an international exchange or do an internship.

Three options

  • Thermomechanical energy: emphasis on the mechanical aspects of energy supply and ‘energy machines and systems’
  • Electrical energy: emphasis on the electrical aspects of energy supply and energy converter
  • General techno-economic energy: a broader specialisation, with a focus on non-technical aspects (economy, legal framework, environment)

 Three corresponding specialisation options

  • thermomechanical energy
  • electrical energy
  • techno-economic energy knowledge

 This is an initial Master's programme and can be followed on a full-time or part-time basis.

International Experience

At the Faculty of Engineering Science, students are given the opportunity to complete one or two semesters of their degree within the Erasmus+ programme at an European university, or an university outside Europe. 

Students are also encouraged to carry out industrial and research internships abroad under supervision of the departmental Internship Coordinator. These internships take place between the third Bachelor’s year and the first Master’s year, or between the two Master’s years.

Other study abroad opportunities are short summer courses organised by the Board of European Students of Technology (BEST) network or by universities all over the world. 

The Faculty of Engineering Science is also member of the international networks CESAER, CLUSTER and ATHENS, offering international opportunities as well.

 More info can be found at http://eng.kuleuven.be/english/education/internationalisation

Career perspectives

Thanks to the broad education, both nationally and internationally, the energy engineer has plenty of job opportunities in researchpolicyindustry and services, in all sectors where energy plays an important role, and that is everywhere increasingly.

Junior engineers have predominantly technical functions, including design and development, exploitation, improvement and optimisation of energy systems, system integration, logistic and techno-commercial functions and consultancy. Senior engineers generally grow towards management functions in industry and policy, or expert leaders in engineering and consultancy.



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This fresh, new programme for 2017 is a collaboration between the School of GeoSciences and the School of Social and Political Sciences. Read more

This fresh, new programme for 2017 is a collaboration between the School of GeoSciences and the School of Social and Political Sciences.

The world is facing an ‘energy trilemma’; how to achieve energy security, energy equity and environmental sustainability. Whilst equipping students with an active understanding of low carbon technologies, policies and markets, this new MSc programme is focused squarely on analysing the social, societal and environmental dimensions of energy transitions. You will examine how citizens are involved in and are affected by changes in energy systems.

On a more theoretical level, the programme will enable you to relate supply-side issues to geo-politics and political economy, whilst energy demand will be studied in relation to broader challenges of sustainable consumption.

On a more practical level you will explore the potential of ‘smart’ ICT to affect consumption and inform strategic choices in sustainable living at household and community level. With Scotland being a world leader in renewable electricity generation (especially wind and marine), but also being economically dependent on declining North Sea oil and gas and suffering from high levels of energy poverty, this interdisciplinary MSc. benefits from close access to a high number of insightful case studies, which will serve to examine links between global and local issues, explore international best practices and identify locally suited pathways to more sustainable energy management.

Applicants receiving an offer of admission, either unconditional or conditional, will be asked to pay a tuition fee deposit of £1,500. Please see the fees and costs section for more information.

Programme structure

The programme has been designed to develop transdisciplinary perspectives on the energy trilemma and integrative analytical skills (qualitative and quantitative) which are in short supply in the energy sector. The full-time programme is divided into two semesters of taught courses, followed by a field trip at Easter before the dissertation period over the summer. We are happy to accommodate different working patterns for part-time students, including a half day a week schedule for three-year part time study.

The programme consists of four core modules (20 credits each, two core courses per semester), two optional modules (20 credits, one for each semester) and a 60 credit dissertation.

Compulsory courses*

Semester 1:

  • Energy and Society I: Key themes and issues
  • Energy in the Global South

Semester 2:

  • Energy and Society II: Methods and applications
  • Energy Policy and Politics

Students will also undertake one 20 credit course per semester. The University of Edinburgh offers an unrivalled selection of relevant optional courses for the MSc in Energy, Society and Sustainability. Bearing in mind your particular background and interests, the Programme Director will assist you in your choice from a large menu of optional courses related to six potential specialisation pathways; sustainable technologies and economics, politics, development, environmental sustainability, science and technology and public policy.

Optional courses may include*:

  • Technologies for Sustainable Energy (10 credits) AND
  • Energy and Environmental Economics (10 credits)
  • Applications in Ecological Economics
  • Global Environment: Key issues
  • Global Environmental Politics
  • Resource Politics and Development
  • Governance, Development and Poverty in Africa
  • Principles of Sustainable Development
  • Human Dimensions of Environmental Sustainability
  • Climate Change Management
  • Case Studies in Sustainable Development
  • Science, Knowledge and Expertise
  • Development, Science and Technology
  • Controversies in Science and Technology
  • Economic Issues in Public Policy (Semester 1)
  • Political Issues in Public Policy (Semester 2)

**Please note, courses are offered subject to timetabling and availability and are subject to change.

Learning outcomes

The programme aims for students to develop transdisciplinary skills in the assessment of the transition potential of energy systems towards greater sustainability, focussing especially on the human dimension of technological change and working and experimenting with energy users to co-produce knowledge about pathways to change.

Upon successful completion of the programme, students will have gained:

  • Understanding of energy systems and the energy trilemma
  • Understanding of social theories that underpin human attitudes and behaviour in relation to energy use
  • Understanding the non-technical and more-than-technical aspects of energy transitions
  • Understanding how energy-related decisions are linked to other societal challenges and socio-technical developments
  • Understanding of energy literacy

Career opportunities

UK research councils cite a major skills gap in the energy sector, one of the biggest growth sectors within the UK economy in recent years. Demand has never been higher for sound evidence on behavioural change, public engagement with energy issues, and public support for community and commercial investments in low carbon energy generation. We train our graduates to translate complex science into effective policies and new business opportunities. We have strong links with government departments, energy relevant NGOs and key industry players who want to make use of these skills. Committed to helping you meet prospective employers and network with those active in the field, we organise careers events and encourage dissertations conducted in partnership with external organisations.



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Your programme of study. Read more

Your programme of study

Are you interested in where we source our future energy and how we protect what we have now and in the future? Do you have environmental concerns about how energy is extracted and what regulation is in place to prevent damage to the environment?  This programme focuses on two main interlinked areas within energy management of politics and law.  Within the political setting you understand regulation as you do in the legal setting but you look at policies, regulation and interdependencies and relationships globally to understand how risk, security and future policy may alter and how this then translates in law. There is a heightened senses of awareness now within energy and climate and an increased sense of urgency about pollution controls and concerns about energy reserves.  This is set within a volatile political and social environment in many countries some of whom supply energy globally. You look at historical oil crisis, security, and politics and you connect this to environmental regulation systems, and the different legal systems and approaches in law.

This programme gives you a wide breadth of skills and knowledge in an essential area of the energy industry, both upstream and downstream, commercial and domestic globally. You are taught in the energy capital of Europe in Aberdeen city, home to a multitude of FTSE 100 companies from the energy industry and you learn from both its learning's and that of academics who follow it closely at Aberdeen. There is a lot of historic case law and knowledge gained from the energy industry which has influenced energy law over time and much of it has related to the tightening of mechanisms and regulation to prevent environmental damage from occurring. There are also economic influences on the energy industry which can rapidly alter the economics of countries when suppliers change prices, lower or raise production or change group agreements. Even within the domestic market energy suppliers continue to influence the prices we pay for our domestic energy which can in turn affect domestic economics within countries.

You can work as a lawyer or regulator across the supply chain from source to domestic energy or you can work as a consultant or advisor within policy. Within the energy industry itself you can be a vital part of project initiation in understanding policy, guidance, risks and laws to support growth alongside social and legal responsibility to ensure integrity in all areas of energy extraction.

Courses listed for the programme

Compulsory

  • Energy Politics
  • Introduction to Energy Economics

Optional

  • Low Carbon Energy Transition: Renewable Energy Law
  • Oil and Gas Law

Semester 2

Compulsory

  • International Energy Security

Optional

  • Low Carbon Energy Transition: Nuclear Energy and Carbon Capture and Storage
  • Downstream Energy Law

Semester 3 

Compulsory

  • Energy Politics and Law Project

Find out more detail by visiting the programme web page

Why study at Aberdeen?

  • You are taught by academics with a strong knowledge of the industry from energy to renewable policy research. Aberdeen is situated at the heart of the European oil and gas industry
  • We have developed an international reputation as a centre for academic excellence and political research
  • You get specific expertise in the Middle East, Latin America, North and South Asia, Nordic countries, Europe and the UK

Where you study

  • University of Aberdeen
  • Full Time or Part Time
  • 12 Months or 24 Months
  • September start

International Student Fees 2017/2018

Find out about fees:

  • International
  • Scotland and EU
  • Other UK

Find out more from the programme page

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page and the latest postgraduate opportunities

Living in Aberdeen

Find out more about:

Find out more about:

Your Accommodation

Campus Facilities

Find out more about living in Aberdeen and living costs



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Why Energy Management at Vistula University?. Attractive tuition fee. You will learn from industry professionals. Scholarships for 10 students with the lowest income. Read more

Why Energy Management at Vistula University?

  • Attractive tuition fee
  • You will learn from industry professionals
  • Scholarships for 10 students with the lowest income
  • 2 summer schools in Polish Lake District

The energy industry keeps the world moving. That is why it needs the best professionals who are ready to respond to such challenges as the massive changes in technology, the rise of new economies, the proliferation of renewable energy sources, and many others. If you want to be one of them join our Energy Management programme.

The MA in Energy Management is a two-year, full-time programme aimed at equipping students with knowledge, skills, and competences, to work in the spheres of energy business, both national and international.

The programme will familiarise you with the international standards of managing business organisations in the energy sector. The theoretical knowledge you will acquire in lectures, will find practical applications in workshops and seminars.

The programme is developed and taught in close co-operation with industry professionals, who introduce an international perspective through a diverse range of courses. This combination of competencies ensures that the knowledge you will gain is truly reliable and credible.

As Energy Management graduates, you will be ready to take a leading role in shaping the energy industry, for today and tomorrow. You will understand the undergoing energy transition, and have the key knowledge and skills required for a successful career in the energy industry.

Programme

List of general courses

  • Contemporary theories of management
  • Human capital management
  • Marketing management
  • Managerial economics
  • Innovation and enterprise in business
  • Ethics in management
  • International economic law
  • Financial reporting standards
  • Managerial accounting
  • Statistical inference
  • MA seminar
  • Foreign language

List of specialisation courses

  • Energy and Managerial Economics 
  • Energy Law 
  • CSR and Ethics in the Energy Sector 
  • Energy Management and Strategies 
  • Marketing Management in the Energy Sector
  • Innovations and Entrepreneurship in the Energy sector
  • Renewable Energy Issues 
  • Global Energy Markets
  • Supply Chain Management in Energy 
  • Strategic Analysis for the Energy Sector
  • Risk Management and Business Continuity 
  • Crisis management in Energy 
  • Energy Project I 
  • Energy Project II 
  • Energy Management System 
  • Strategic Communication In the Energy Sector 

Career after studies

After graduating with a degree in Energy Management, you will be able to find employment in the full range of national companies, international corporations, as well as in start-ups, as manager, consultant, or market analyst.



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

Summary

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

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

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

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

About

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

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

Attendance

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

For each module

Online learning: 24 hrs

Online disussions / tutorial / group discussions: 12 hrs

Independent study: 114 hrs

Total effort hours: 150 hrs

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

Professional recognition

Energy Institute (EI) 

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

Chartered Institution of Building Services Engineers (CIBSE) 

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

Career options

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

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



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

Summary

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

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

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

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

About

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

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

Attendance

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

For each module

Online learning: 24 hrs

Online disussions / tutorial / group discussions: 12 hrs

Independent study: 114 hrs

Total effort hours: 150 hrs

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

Professional recognition

Energy Institute (EI) 

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

Chartered Institution of Building Services Engineers (CIBSE) 

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

Career options

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

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



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Energy supply is fundamentally important to our homes and workplaces. Read more

Energy supply is fundamentally important to our homes and workplaces. Future energy supply has to be stable, secure, not only affordable but sustainable, which makes energy supply a systems engineering problem. Energy Informatics is an emerging discipline that utilises powerful tools from modern information technology to analyse data from different energy systems and sources to solve energy supply problems.

Who is it for?

This course is suitable for Computer Science, Mathematics, Engineering and Information Technology graduates and practicing IT engineers wishing to pursue a technical management career in the strongly growing energy industry sector. It develops professional engineers and scientists with the multidisciplinary skills and ability to analyse current and future energy engineering problems.

Why this course?

Developed economies now face a number of challenges in procuring energy security and responding to energy pricing and affordability issues, as well as dealing with contributions to carbon emission targets. Due to the growth of sustainable and renewable energy production, energy informatics plays a significant role in managing the world's growing energy demand. Both developed and developing countries are facing great challenges in improvements in energy efficiency, reductions of greenhouse gas emissions and enlargements of renewable energy applications. For example, the UK Government has set ambitious targets to decrease the greenhouse gas emissions to 80% of today’s by 2050; the China Government has also planned to significantly reduce CO2 emissions to a level of 5,000 million tons in 2050, which is half of current emissions.

Through this course, you will develop professional informatics skills required in the growing energy sector, with essential abilities applicable in both the renewables industry (wind, geothermal and solar) and the traditional energy industry (oil and gas).

Students benefit from dedicated state-of-the-art facilities including unique engineering-scale facilities for the development of efficient technologies with low CO2 emissions. In addition to management, communication, team work and research skills, each student will attain at least the following learning outcomes from this degree course:

  • Develop systematic strategies using traditional methods to resolve the technical and economic issues involved in the design and operation of industrial energy systems.
  • Apply effectively the informatics knowledge gained to solve practical problems in principal subject areas of energy systems.

Informed by Industry

We have a world class reputation for our industrial-scale research and pilot-scale demonstration programmes in the energy sector. Close engagement with the energy and transport sectors over the last 20 years has produced long-standing strategic partnerships with the sectors most prominent players. The strategic links with industry ensures that all of the material taught on the course is relevant, timely and meets the needs of organisations competing within the energy sector. This industry-led education makes our graduates some of the most desirable in the world for energy companies to recruit.

Course details

The taught programme for the Energy Informatics masters is generally delivered from October to February and is comprised of eight modules. The modules are delivered over one week of intensive delivery with a second week being free from structured teaching to allow time for more independent learning and reflection.

Students on the part-time programme will complete all of the modules based on a flexible schedule that will be agreed with the course director.

Group project

The group project is an applied, multidisciplinary, team-based activity. Often solving real-world, industry-based problems, students are provided with the opportunity to take responsibility for a consultancy-type project while working under academic supervision. Success is dependent on the integration of various activities and working within agreed objectives, deadlines and budgets. Transferable skills such as team work, self-reflection and clear communication are also developed.

Individual project

The individual project is the chance for students to focus on an area of particular interest to them and their future career. Students select the individual project in consultation with the Thesis Co-ordinator, their allocated supervisor and their Course Director. These projects provides students with the opportunity to demonstrate their ability to carry out independent research, think and work in an original way, contribute to knowledge, and overcome genuine problems in the offshore industry. Many of the projects are supported by external organisations.

Assessment

Taught modules 40%, group project 20% (or dissertation for part-time students), and individual project 40%.

Your career

Graduates from this course will develop diverse and rewarding careers in the extremely promising energy sector. The international nature of this growing field would allow Cranfield graduates to develop careers all over the world.

If you are pursuing further study through continue education (PhD or MBA) in the energy sector, this programme would facilitated this through its international, interdisciplinary, project-oriented course design.



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