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Masters Degrees (Renewable Energy Technology)

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The MSc in Renewable Energy Technology develops professional engineers and scientists with the multidisciplinary skills and ability to analyse current and future energy engineering problems, and design and implement appropriate solutions, taking into account the social, environmental, technical, regulatory and commercial issues and constraints. Read more
The MSc in Renewable Energy Technology develops professional engineers and scientists with the multidisciplinary skills and ability to analyse current and future energy engineering problems, and design and implement appropriate solutions, taking into account the social, environmental, technical, regulatory and commercial issues and constraints. Cranfield is a respected provider of energy related research and teaching, which represents about 10% of the University’s income. Students benefit from dedicated state-of-the-art facilities including unique engineering-scale facilities for the development of efficient technologies with low CO2 emissions.

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

About the course

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

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

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

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

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

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

Aims

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

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

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

Initial programme learning outcomes

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

Knowledge and understanding of:

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

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

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

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

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

Course Content

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

Compulsory modules:

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

Teaching

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

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

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

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

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

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

Assessment

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

Special Features

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

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

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

Women in Engineering and Computing Programme

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

Accreditation

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

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

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This programme is idea for graduates from engineering, science or other relevant backgrounds and who have an interest in pursuing a successful career in research, technological change and the commercialisation of renewable-energy systems. Read more
This programme is idea for graduates from engineering, science or other relevant backgrounds and who have an interest in pursuing a successful career in research, technological change and the commercialisation of renewable-energy systems.

This programme will give you opportunities to learn about major renewable-energy technologies, energy-sector economics, supply-chain management and sustainable development.

PROGRAMME OVERVIEW

Created in the context of the rapid advancement of the renewable-energy industry, this Masters programme investigates both renewable energy and systems technologies.

It is designed to build your competence and confidence in the R&D and engineering tasks that are demanded of scientific engineers in the renewable and sustainable-development sector.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year. It consists of eight taught modules and a dissertation. The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-Optimisation and Decision-Making
-Process Modelling and Simulation
-Technology, Business & Research Seminars
-Renewable Energy Technologies
-Refinery and Petrochemical Process
-Solar Energy Technology
-Advanced Process Control
-Energy Economics and Technology
-Process Systems Design
-Biomass Processing Technology
-Wind Energy Technology
-Process and Energy Integration
-Knowledge-based Systems and Artificial Intelligence
-Supply Chain Management
-Introduction to Petroleum Production
-Process Safety and Operation Integrity
-Economics of International Oil & Gas
-Dissertation

FACILITIES, EQUIPMENT AND ACADEMIC SUPPORT

Modules related to the different groups are taught by a total of six full-time members of staff and a number of visiting lecturers.

As part of their learning experience, students have at their disposal a wide range of relevant software needed to support the programme material dissertation projects. In recent years, this work included the design of various knowledge-based and business systems on the internet, the application of optimisation algorithms, and semantic web applications.

Numerous laboratory facilities across the Faculty and the University are also available for those opting for technology-based projects, such as the process engineering facility, a control and robotics facility and signal processing labs.

The work related to the MSc dissertation can often be carried out in parallel with, and in support of, ongoing research. In the past, several graduates have carried on their MSc research to a PhD programme.

CAREER PROSPECTS

Engineers and scientists are increasingly expected to have skills in information systems engineering and decision-support systems alongside their main technical and/or scientific expertise.

Graduates of this programme will be well prepared to help technology-intensive organisations make important decisions in view of vast amounts of information by adopting, combining, implementing and executing the right technologies.

EDUCATIONAL AIMS OF THE PROGRAMME

This programme investigates both renewable energy and systems technologies in order to produce scientific researchers and engineers who are competent in the R&D and engineering tasks applicable to the renewable energy and sustainable development sectors.

Its primary aims lie in developing a global understanding of the major types of renewable energy technologies, in-depth knowledge of the technology for biomass-based renewable energy, and knowledge and skills in systems modelling and optimisation.

A balanced curriculum will be provided with a core of renewable energy and systems engineering modules supplemented by a flexible element by way of elective modules that permit students to pursue an element of specialisation relevant to their backgrounds, interests and/or career aspirations.

An integrated approach is taken so as to provide a coherent view that explores the interrelationships between the various components of the programme.

PROGRAMME LEARNING OUTCOMES

Knowledge and understanding
-State-of- the-art knowledge in renewable energy technologies, in terms of: the sources, technologies, systems, performance, and applications of all the major types of renewable energy; approaches to the assessment of renewable energy technologies; the processes, equipment, products, and integration opportunities of biomass-based manufacturing
-State-of- the-art knowledge in process systems engineering methods, in the areas of: modelling and simulation of process systems; mathematical optimization and decision making; process systems design
-Advanced level of understanding in technical topics of preference, in one or more of the following aspects: process and energy integration, economics of the energy sector, sustainable development, supply chain management

Intellectual / cognitive skills
-Select, define and focus upon an issue at an appropriate level
-Collect and digest knowledge and information selectively and independently to support a particular scientific or engineering enquiry
-Develop and apply relevant and sound methodologies for analysing the issue, developing solutions, recommendations and logical conclusions, and for evaluating the results of own or other’s work

Professional practical skills
-Assess the available renewable energy systems
-Design and select appropriate collection and storage, and optimise and evaluate system design
-Apply generic systems engineering methods such as modelling, simulation, and optimization to facilitate the assessment and development of renewable energy technologies and systems

Key / transferable skills
-Preparation and delivery of communication and presentation
-Report and essay writing
-Use of general and professional computing tools
-Collaborative working with team members
-Organizing and planning of work
-Research into new areas, particularly in the aspect of literature review and skills acquisition

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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This is the distance learning version of the full time MSc in Renewable Energy Systems Technology. By using the same course materials distance learning students are able to achieve the same outcomes as the full-time MSc in Renewable Energy Systems Technology. Read more
This is the distance learning version of the full time MSc in Renewable Energy Systems Technology.

By using the same course materials distance learning students are able to achieve the same outcomes as the full-time MSc in Renewable Energy Systems Technology. We have developed new ways of learning, which offer students flexibility in place, pace and mode to meet the demand for this highly sought after qualification but who cannot attend traditional university classes.

By the end of the course, our renewable energy MSc graduates, will have gained a comprehensive understanding of renewable energy technologies and developed a range of important transferable
skills.

Core study areas include solar power, wind power, water power, biomass, sustainability and energy systems, integration of renewables and a research project.

Optional study areas include advanced solar thermal, advanced photovoltaics, energy storage, energy system investment and risk management.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/renewable-energy-system-tech-dl/

Programme modules

Compulsory Modules:
- Sustainability and Energy Systems
- Integration of Renewables
- Solar 1
- Wind 1
- Water Power
- Biomass
- Research Project

Optional Modules (choose three):
- Energy Storage
- Advanced Solar Thermal
- Advanced Photovoltaics
- Wind 2
- Energy System Investment and Risk Management

Normally students are required to obtain 180 Master's level credits in these modules to become a Master of Science in Renewable Energy Systems Technology graduate. However optional leave awards of Postgraduate Diploma (120 credits) or Postgraduate Certificate (60 credits) are possible.

How you will learn

All of our renewable energy MSc Modules consist of a series of Study Units, each covering a specific subject area (see programme modules). Instead of face-to-face lectures and tutorials, the main learning routes for distance learning students are via the University’s virtual learning environment (LEARN). The learning resources for each Study Unit include:
- On line study materials
- Live streamed and recorded lectures
- Virtual and remote laboratories
- Tutorials, assignments and computer aided assessments
- Access to past exam papers

In addition there are several important communication features built into LEARN which include:
- Discussion forums (for communicating with tutors and fellow learners)
- Specialist tutor groups
- Assignment and tutorial upload facility (to allow tutors to check your progress and provide you with feedback)
- Online tutorial sessions with module lectures

Distance learning students also have the option to attend on campus modules.

- Assessment
By examination, coursework, group work and research project. Examinations are held in January and May/June with coursework and group work throughout the programme. The individual MSc research project is assessed by written report and viva voce. Students receive regular feedback on their progress from on-line support officers, tutors and academic staff.

It is also possible for distance learning students to take exams at a suitable local venue either a local British council or a recognised university. For further information about this process please contact the course administrator.

- Technical Requirements
To make full use of distance learning resources, the following are minimum requirements:
- Good specification PC or laptop running the latest operating system
- A printer if you wish to print out materials
- Good computer skills (see below)
- Fast and reliable access to the Internet via Broadband

You will require the skills that allow one to:
- Open, copy, and move files and directories on your hard drive
- Move around the desktop with several applications (programmes) opened at the same time
- Create documents using a software package such as MS Word or similar.
- Be able to zip files and make pdf files
- Manipulate and analyse data using spread sheet software such as MS Excel

Careers and further study

The flexibility offered by this MSc allows graduates already working in or seeking to enter the sector, the opportunity to gain strong technical knowledge whilst continuing to work.This combination of knowledge and practical experience makes them highly attractive to existing and future employers worldwide.

Fees: Structure and scholarships

Unlike the full time course distance learning students pay as they study and will pay for modules prior to registration at the beginning of each semester. There are no additional registration fees.
However please note that distance learning fees are reviewed annually and may increase during your period of study.

Why choose electronic, electrical and systems engineering at Loughborough?

We develop and nurture the world’s top engineering talent to meet the challenges of an increasingly complex world. All of our Masters programmes are accredited by one or more of the following professional bodies: the IET, IMechE, InstMC, Royal Aeronautical Society and the Energy Institute.

We carefully integrate our research and education programmes in order to support the technical and commercial needs of society and to extend the boundaries of current knowledge.

Consequently, our graduates are highly sought after by industry and commerce worldwide, and our programmes are consistently ranked as excellent in student surveys, including the National Student Survey, and independent assessments.

- Facilities
Our facilities are flexible and serve to enable our research and teaching as well as modest preproduction testing for industry.
Our extensive laboratories allow you the opportunity to gain crucial practical skills and experience in some of the latest electrical and electronic experimental facilities and using industry standard software.

- Research
We are passionate about our research and continually strive to strengthen and stimulate our portfolio. We have traditionally built our expertise around the themes of communications, energy and systems, critical areas where technology and engineering impact on modern life.

- Career prospects
90% of our graduates were in employment and/or further study six months after graduating. They go on to work with companies such as Accenture, BAE Systems, E.ON, ESB International, Hewlett Packard, Mitsubishi, Renewable Energy Systems Ltd, Rolls Royce and Siemens AG.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/renewable-energy-system-tech-dl/

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Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Read more

Mission and goals

Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Energy plants are systems in which energy forms are transformed and utilized. To name a few examples: large thermal power stations, air-conditioning and climate control equipment for residences and offices, vehicle engines, airplane propellers, solar panels etc.
The Master of Science in Energy Engineering prepares professionals to design, select and use the main technologies in energy transformation, to actively follow scientific improvements and to operate effectively in a competitive and multi-disciplinary industrial context, characterized by significant environmental, regulatory and safety constraints. Students will analyze broad themes as well as specific subjects for which both a rigorous methodological approach to thermodynamics and an open attitude towards related interdisciplinary topics are required.

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

Professional opportunities

Graduates can find employment in several sectors: in the technical area of designing, testing, running, and maintaining the energy systems, like heating and cooling systems, thermal power and hydro-electric power plants, engines, oil and gas fields; in the energy management area; and in utilities and public boards that supply energy as electricity and natural gas.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Energy_Engineering_MI.pdf
Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Energy plants are
systems in which energy forms are transformed and utilized. To name a few examples: large thermal power stations, air-conditioning and climate control equipment for residences and offices, vehicle engines, airplane propellers, solar panels etc. The Master of Science in Energy Engineering prepares professionals to design, select and use the main technologies in energy transformation, to actively follow scientific improvements and to operate effectively in a competitive and multi-disciplinary industrial context, characterized by significant environmental, regulatory and safety constraints. Students will analyze broad themes as well as specific subjects for which both a rigorous methodological approach to thermodynamics and an open attitude towards related interdisciplinary topics are required.
Graduates can find employment in several sectors: in the technical area of designing, testing, running, and maintaining the energy systems, like heating and cooling systems, thermal power and hydro-electric power plants, engines, oil and gas fields; in the energy management area; and in utilities and public boards that supply energy as electricity and natural gas. The programme is taught in English.

Subjects

- Five tracks available: Power Production; Heating, Ventilation and Air-Conditioning; Oil and Gas Engineering; Energy Engineering for an Environmentally Sustainable World (offered on Piacenza campus, see separate leaflet); Energy for Development.

- Subjects and courses common to all the tracks: Heat and Mass Transfer; Fundamentals of Chemical Processes; Advanced Energy Engineering and Thermoeconomics;; Combustion and Safety; Energy Conversion or Refrigeration, Heat Pumps and Thermal Power Systems and Components; Energy Economics or Project Management or Management Control Systems; Graduation Thesis.

- Optional subjects according to the selected track: Development Economy; Engineering and Cooperation for Development; Power Production from Renewable Sources; Engineering of Solar Thermal Processes; Petroleum Reservoir Engineering; Petroleum Technology and Biofuel; Transport Phenomena in the Reservoirs; CFD for Energy Engineering Analysis; System and Electrical Machines; Advanced Energy Systems; Dynamic Behavior and Diagnostics of Machines; Materials for Energy; Turbomachinery; Internal Combustion Engines; Air Conditioning and Room Pollutant-Controlling Plants, Energy Savings and Renewable Energies in Buildings; Applied Acoustics and Lighting; Design of Thermal Systems; Energy Systems and Low-Carbon Technologies; Air Pollutions and Control Engineering; Operation and Control of Machines for Power Generation; Bio-energy and Waste-to-Energy Technologies; Smart Grids and Regulation for Renewable Energy Sources.

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

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

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This MSc teaches an international community of students about the latest advances in clean power developments and enables graduates to design and develop benign renewable energy solutions that can be implemented in countries around the world. Read more
This MSc teaches an international community of students about the latest advances in clean power developments and enables graduates to design and develop benign renewable energy solutions that can be implemented in countries around the world.

It is aimed at engineers and natural scientists pursuing or wishing to pursue a career in the renewable energy sector, particularly those in technical positions e.g. systems designers, technical consultants and R&D engineers and scientists.

Core study areas include solar power, wind power, water power, biomass, sustainability and energy systems, integration of renewables and a research project.

Optional study areas include advanced solar thermal, advanced photovoltaics, advanced wind, energy storage, energy system investment and risk management.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/renewable-energy-systems-tech/

Programme modules

Compulsory Modules:
- Solar Power
- Wind Power 1
- Water Power
- Biomass
- Sustainability and Energy Systems
- Integration of Renewables
- Research Project

Optional Modules (choose three):
- Advanced Solar Thermal
- Advanced Photovoltaics
- Wind Power 2
- Energy Storage
- Energy System Investment and Risk Management

How will you learn

You can select options to develop a chosen specialism in greater depth, including through your individual project which is often carried out with renewable energy companies or alongside the research portfolio of our international experts.

This is a very practical course backed up by strong theoretical understanding of the principles and facts behind renewable energy production.

Assessment is via a mixture of written and practical coursework and examinations. The individual research project is also assessed by viva. Because of its multidisciplinary nature, assessment may be done in collaboration with academic colleagues from Civil Engineering, Mechanical Engineering and Materials.

Facilities

We have current industrial equipment and laboratories for PV cell production, PV module production, qualification testing, PV quality control, energy storage research facilities, vacuum glazing, wind flow measurement, and instrumentation for energy consumption and monitoring.

You will benefit from experience with industrial tools and software for system design (e.g. PV Syst, WASP, ReSoft Windfarm, DNV GL Windfarmer), materials research hardware (e.g. pilot lines for commercial solar cell production) and quality control laboratories.

This enables you to acquire the practical skills that industry uses today and builds the foundations for developing your knowledge base throughout their career.

Careers and further study

There is a world-wide shortage of skilled engineers in this field and so the combination of hands on experience with global industry standard tools and techniques and the strong theoretical knowledge which graduates of this course acquire, makes them highly attractive to employers.

Students may carry out their projects as part of a short-term placement in a company and graduates of this course are often fast-tracked in their applications. Consequently we have an extensive network of alumni, many in top jobs.

Why choose electronic, electrical and systems engineering at Loughborough?

We develop and nurture the world’s top engineering talent to meet the challenges of an increasingly complex world. All of our Masters programmes are accredited by one or more of the following professional bodies: the IET, IMechE, InstMC, Royal Aeronautical Society and the Energy Institute.

We carefully integrate our research and education programmes in order to support the technical and commercial needs of society and to extend the boundaries of current knowledge.

Consequently, our graduates are highly sought after by industry and commerce worldwide, and our programmes are consistently ranked as excellent in student surveys, including the National Student Survey, and independent assessments.

- Facilities
Our facilities are flexible and serve to enable our research and teaching as well as modest preproduction testing for industry.
Our extensive laboratories allow you the opportunity to gain crucial practical skills and experience in some of the latest electrical and electronic experimental facilities and using industry standard software.

- Research
We are passionate about our research and continually strive to strengthen and stimulate our portfolio. We have traditionally built our expertise around the themes of communications, energy and systems, critical areas where technology and engineering impact on modern life.

- Career prospects
90% of our graduates were in employment and/or further study six months after graduating. They go on to work with companies such as Accenture, BAE Systems, E.ON, ESB International, Hewlett Packard, Mitsubishi, Renewable Energy Systems Ltd, Rolls Royce and Siemens AG.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/renewable-energy-systems-tech/

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

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

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

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

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

Learn From The Best

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

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

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

Teaching And Assessment

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

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

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

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

Learning Environment

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

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

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

Research-Rich Learning

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

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

Give Your Career An Edge

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

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

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

Your Future

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

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

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

Read less
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.

Visit the website: http://www.ulster.ac.uk/course/msc-renewable-energy-and-energy-management-pt-el

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

Course detail

- Description -

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.
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.

Why Choose Ulster University ?

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 recruit international students from more than 100 different 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 https://www.ulster.ac.uk/apply/fees-and-finance/postgraduate

https://www.ulster.ac.uk/apply/fees-and-finance/postgraduate

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

Read less
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.

Visit the website: http://www.ulster.ac.uk/course/msc-renewable-energy-and-energy-management-pt-el

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

Course detail

- Description -

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.
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.

Why Choose Ulster University ?

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 recruit international students from more than 100 different 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 https://www.ulster.ac.uk/apply/fees-and-finance/postgraduate

https://www.ulster.ac.uk/apply/fees-and-finance/postgraduate

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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Costs. Fees for 2016/17 TBC. 2015-2016 Irish/EU €8,500. Plus subsistence expenses (food etc.) associated with field trips, including the Tidal Energy module based at Queen’s Marine Laboratory, Portaferry, Northern Ireland. Read more
Costs: Fees for 2016/17 TBC. 2015-2016 Irish/EU €8,500. Plus subsistence expenses (food etc.) associated with field trips, including the Tidal Energy module based at Queen’s Marine Laboratory, Portaferry, Northern Ireland. Software necessary for assignments will be provided in UCC laboratories but may not be available for remote use. Optional sea safety training.

Overview

The programme covers a range of engineering and non-engineering topics relevant to the marine renewable energy industry, which is expected to grow rapidly in the coming decade. This will lead to a requirement for engineers with good knowledge of engineering fundamentals as well as detailed knowledge of how wind, wave and tidal devices will be designed, deployed and operated. A key aspect of the programme is the provision of specially-developed advanced modules in marine renewable energy which are not available in any other master’s course. This is an all-Ireland programme, hosted by UCC, delivered in partnership with the following academic institutions: Cork Institute of Technology, Dublin Institute of Technology, National University of Ireland, Maynooth, Queen’s University Belfast, University College Dublin and the University of Limerick.

Course Details

Students take 90 credits as follows:

In Part I students must take the five core modules (unless these or equivalent courses have already been taken), to a total of 25 credits. Students also choose electives from the list below, or may, with the approval of the Programme Director, choose other modules from the University’s Calendar.

NB: For the purposes of this programme it has been agreed that all non-UCC modules are treated as either 5 or 10 credits.

Part II consists of a Marine Renewable Energy Research Project (NE6020), to the value of 30 credits, completed over the summer months, either in industry or in an academic research laboratory in one of the partner institutions. Projects are offered subject to availability of suitable proposals from industry, and will be offered to students based on order of merit of results achieved in Part I. Students are also encouraged to make efforts to secure their own placement from suitable industrial hosts, outside of the list provided.

In every case, the final choice of modules is subject to the approval of the Programme Director of the MEngSc (Marine Renewable Energy). Students may take a maximum total of 15 credits only of undergraduate modules on this programme.

Part I
Core Modules
CE4020 Environmental Hydrodynamics (5 credits; UCC)
NE6003 Wind Energy (5 credits; UCC)
NE6005 Ocean Energy (5 credits; UCC)
NE6010 Advanced Topics in Marine Renewable Energy (5 credits; All institutions)
NE6906 Tidal Energy (5 credits; QUB; 1-week block)

Elective Modules

Students select modules to the value of 35 credits from the following list, (or from elsewhere in the UCC Calendar, subject to approval):

AC6301 Innovation Finance (5 credits) (UCC)
NE3003 Sustainable Energy (5 credits; UCC)
CE4013 Harbour & Coastal Engineering (5 credits; UCC)
CE6024 Finite Element Analysis (5 credits; UCC)
EE4001 Power Electronics, Drives & Energy Conversion (5 credits; UCC)
EE4010 Electrical Power Systems (5 credits; UCC)
EV4012 Environmental Impact Assessments (5 credits) (UCC)
GL6007 Practical Offshore Geological Exploration (5 credits; offered subject to availability of survey vessel time) (UCC)
IS6306 Technology Business Planning (5 credits) (UCC)
LW6104 Intellectual Property Law for High-Tech Entrepreneurs (5 credits) (UCC)
NE6007 Energy Systems Modelling (5 credits; UCC)
NE6901 Control Systems (5 credits; NUIM - EE612)
NE6902 Maintenance & Reliability (5 credits; CIT - MANU8003)

Part II
NE6020 Marine Renewable Energy Research Project (30 credits; All institutions; Summer)

Application Procedure

Application for this programme is on-line at http://www.pac.ie/ucc. Places on this programme are offered in rounds. The closing dates for each round can be found here (http://www.ucc.ie/en/study/postgrad/how/applicationclosingdates/). For full details of the application procedure click How to apply - http://www.ucc.ie/en/study/postgrad/how/

Course Practicalities

You will be studying a range of engineering and non-engineering topics relevant to a career in the marine renewable energy industry.

The programme will include modules in engineering topics such as Wind Energy, Wave Energy, Tidal Energy, Ocean-Structure Interactions; Ocean Energy Device Design; Control Engineering; Mechanical Engineering; Grid Integration and Storage; Marine Operations & Robotics.

The course content will be delivered via blended learning, with some modules presented in traditional lecture format, and some modules delivered remotely using e-learning technologies. All modules will have a significant element of continuous assessment throughout the year. The Tidal Energy module is delivered during a one-week field visit to the Portaferry research laboratory of Queen’s University Belfast.

A significant element of the programme is a R&D project carried out in conjunction with either an industry partner or an academic research group, with the final three months spent working on the project on placement with the partner.

Non-engineering topics available include Intellectual Property Law; Innovation Finance; Environmental Impact Assessment; Practical Offshore Geological Exploration.

Assessment

Taught modules (total >= 60 ECTS): will be assessed via a mixture of continuous assessment (assignments and mini design projects) and traditional examinations. This depends on the contributing institution, for example in NUIM, coursework and project-based learning is emphasised. The project module (30 ECTS) will be assessed by means of: oral presentation and seminar; logbook; written report, with input from the industrial placement supervisor.

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

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

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

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

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

Internship

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

Research

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

Study Abroad

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

Learn From The Best

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

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

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

Teaching And Assessment

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

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

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

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

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

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

Learning Environment

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

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

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

Research-Rich Learning

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

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

Give Your Career An Edge

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

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

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

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

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

Your Future

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

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

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

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The European Masters in Renewable Energy is a collaborative programme offered by 9 leading European universities. This programme teaches students about the latest advances in clean power developments. Read more
The European Masters in Renewable Energy is a collaborative programme offered by 9 leading European universities.

This programme teaches students about the latest advances in clean power developments. The MSc enables graduates to design and develop benign renewable energy technologies that can be implemented in countries around the world to reduce our fossil fuel emissions.

Core study areas include solar power, wind power, water power, biomass, sustainability and energy systems, subject specialisation at a second university and a major individual research project internship in a renewable energy company.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/european-masters-renewable-energy/

Programme modules

Core Semester – studied at Loughborough University:
- Solar Power
- Wind Power
- Water Power
- Biomass
- Sustainability and Energy Systems Specialisation

Module taken with a European partner university:
- Renewable technology six month project undertaken in a company or research centre

Project:
- Six month project undertaken in a company or research centre

How you will learn

The European Masters in Renewable Energy is composed of three sections. It begins with a core first semester that presents modules in Solar Power, Wind Power, Biomass Energy and Water Power.

For the second semester students move to a second university to specialize in the subject shown below. Finally, a major individual research project internship in a renewable energy company is carried out in the final six months of the Master’s degree.

Careers and further study

Due to the unique nature of the programme not only do students develop technical and scientific competencies in renewable energy, they also develop soft skills such as flexibility, adaptability, team spirit, and the ability to work in a multicultural environment, which are essential when working in an expanding global renewable energy market.

Why choose electronic, electrical and systems engineering at Loughborough?

We develop and nurture the world’s top engineering talent to meet the challenges of an increasingly complex world. All of our Masters programmes are accredited by one or more of the following professional bodies: the IET, IMechE, InstMC, Royal Aeronautical Society and the Energy Institute.

We carefully integrate our research and education programmes in order to support the technical and commercial needs of society and to extend the boundaries of current knowledge.

Consequently, our graduates are highly sought after by industry and commerce worldwide, and our programmes are consistently ranked as excellent in student surveys, including the National Student Survey, and independent assessments.

- Facilities
Our facilities are flexible and serve to enable our research and teaching as well as modest preproduction testing for industry.
Our extensive laboratories allow you the opportunity to gain crucial practical skills and experience in some of the latest electrical and electronic experimental facilities and using industry standard software.

- Research
We are passionate about our research and continually strive to strengthen and stimulate our portfolio. We have traditionally built our expertise around the themes of communications, energy and systems, critical areas where technology and engineering impact on modern life.

- Career prospects
90% of our graduates were in employment and/or further study six months after graduating. They go on to work with companies such as Accenture, BAE Systems, E.ON, ESB International, Hewlett Packard, Mitsubishi, Renewable Energy Systems Ltd, Rolls Royce and Siemens AG.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/european-masters-renewable-energy/

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