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Masters Degrees (Renewable Energy)

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

Overview

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

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

Distance learning

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

Programme content

- Energy in the 21st Century

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

- Economics of renewable energy

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

- Environmental Policy & Risk

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

- Environmental Processes

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

- Renewable Technology I: Generation

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

- Renewable Technology II: Integration

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

- Development Appraisal

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

- Development Project

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

- Optional design project

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

- Dissertation

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

- Additional information

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

Scholarships available

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

English language requirements

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

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

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

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

Distance learning students

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

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



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Renewable energy is a cornerstone of the green economy and marine wind, wave and tidal energy are key elements of the UK, European and global renewable energy roadmaps. Read more
Renewable energy is a cornerstone of the green economy and marine wind, wave and tidal energy are key elements of the UK, European and global renewable energy roadmaps. Begin your voyage to being a part of this vital transformation by studying on the UK’s first MSc Marine Renewable Energy programme. Building on our international reputation for marine research and teaching along with regional and national initiatives, this distinctive degree focuses on the growing marine renewable energy sector.

Key features

-Be at the forefront of the emerging field of marine renewable energy at a time when such expertise is increasingly sought after.
-Develop knowledge and confidence in the critical areas which will help you to be an integral part of the effort to develop and promote marine renewable energy.
-Benefit from our research team’s expertise – our staff achieved ratings of ‘world leading’ and ‘internationally excellent’ in the UK Government’s most recent Research Excellence Framework (REF 2014).
-Take advantage of Plymouth University’s active role in the Southwest Marine Energy Park and the Offshore Renewables Development Programme to stay abreast of the latest developments and make contacts with key players in the field.
-Gain experience in the use of world leading facilities such as the COAST Lab test tanks and the Falcon Spirit research vessel as part of your taught programme and your research.
-Learn in an environment which benefits from PRIMaRE investment in new staff expertise and facilities.
-Benefit from a programme fully-integrated with the £42 million wave hub project, the world's largest wave energy test site, off north Cornwall.
-Live and study in ‘Britain’s Ocean City’, with easy access to businesses and the natural environment involved in your area of study this is an ideal location to study marine renewables.
-Take the opportunity to study abroad in the research project phase and be supported by one Plymouth University supervisor and one supervisor overseas.

Course details

The taught modules in the first period are compulsory and are designed to provide you with a broad background on marine renewable as well as a solid basis for the option modules in period two. You’ll undertake three modules in period one that provide a background in marine renewable energy: introduction to marine renewable energy, economics, law and policy for marine renewable energy, research skills and research methods. In period two you can choose three options from a choice of five: assessment of coastal resources and impacts, marine planning, economics of the marine environment, mechanics of marine renewable energy structures, and wave and current modelling for marine renewable energy. During period three you’ll undertake a research project and dissertation. Due to the extensive staff research expertise there is a wide range of potential projects spanning marine science, engineering and socio-economics. You may also carry out projects with external organisations that have interests in marine renewable energy.

Core modules
-MAR513 Research Skills and Methods
-MAR526 Introduction to Marine Renewable Energy
-MAR527 Economics, Law and Policy for Marine Renewable Energy
-MAR524 MSc Dissertation

Optional modules
-MAR529 Marine Planning
-MATH523 Modelling Coastal Processes
-MAR528 Mechanics of MRE Structures
-MAR507 Economics of the Marine Environment
-MAR512 Assessment of Coastal Resources and Impacts

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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

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.

Example module listing

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.

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

The programme aims to develop the knowledge and understanding in both renewable energy and systems engineering. The key learning outcomes include:

  • 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

The programme aims to strengthen cognitive skills of the students, particularly in the aspects of problem definition, knowledge and information acquiring, synthesis, and creativity, as collectively demonstrable through the successful completion of the research dissertation. The key learning outcomes include the abilities to:

  • 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

The programme primarily aims to develop skills for applying appropriate methods to analyze, develop, and assess renewable technologies and systems. The key learning outcomes include the abilities to:

  • 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

The programme aims to strengthen a range of transferable skills which are relevant to the needs of existing and future professionals in knowledge intensive industries irrespective of their sector of operation. The key learning outcomes include the further development of the skills in the following areas:

  • 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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Change the world. Join the unique Master of Engineering Studies (Renewable Energy Systems) to tackle one of the most important issues our world faces today. Read more

Change the world

Join the unique Master of Engineering Studies (Renewable Energy Systems) to tackle one of the most important issues our world faces today.

The Master of Engineering Studies (Renewable Energy Systems) is a unique postgraduate programme in New Zealand.

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

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

Setting the global agenda

Let our experts help you develop your own expertise. We bring a solid base of experience to your learning from our Centre for Energy Research, established at Massey in 1997 following over 25 years of teaching and research work undertaken in the areas of renewable energy, energy efficiency and energy management. 

We also bring the most relevant and recent research to your learning. You will learn the theory and practice behind energy management, renewable energy and climate change from lecturers who have been working internationally, contributing to research and policy through panels that are setting the global agenda.

Real-world learning

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

You will also learn how to measure renewable energy resources, and understand the challenges of providing energy efficiency or renewable energy systems in developing countries as part of sustainable development.

Your study includes examining solar radiation, wind, hydro, tidal, wave and biomass systems and their design, including economics and performance. You will look at the challenges in assessing, designing, introducing and maintaining small-scale renewable energy technologies in developing countries and study the scientific theory of global warming, climate modeling and social and technological approaches to reducing greenhouse emissions including greenhouse gas accounting principles.

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

Flexibility

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

Dig deeper

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

A year full time

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

Why postgraduate study?

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

Not just more of the same

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



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This course is designed for students that are interested in supporting the renewable energy industry as it continues its rapid growth to tackle the severe issues posed by climate change. Read more

This course is designed for students that are interested in supporting the renewable energy industry as it continues its rapid growth to tackle the severe issues posed by climate change. Students will have the opportunity to advance their engineering proficiency and develop new skills and knowledge.

Through the exploration of current and emerging technologies and applications for renewable energy, students will be prepared to make significant contributions to their professions, the economy and society.

WHY CHOOSE THIS COURSE?

The MSc course sits within the School of Mechanical, Aerospace and Automotive Engineering, which enjoys a global reputation for excellent teaching, outstanding student experience and exciting research.

  • The School is located in an inspirational £55M state-of-the-art building with modern equipment and student facilities.
  • The MSc meets the demand for skilled renewable energy engineers and graduate career prospects will be wide ranging to include manufacture, design, consultancy and management.
  • Through a Chartered Management Institute (CMI) recognised business module, students will develop their project management skills and have the opportunity to gain level 7 certificates in consultancy and leadership.
  • Teaching and project supervision is provided by experienced academics who are research leaders in the field of renewable energy.
  • The course is designed for students from a variety of different academic and professional backgrounds.

WHAT WILL I LEARN?

This course will enable students to develop and critically analyse technologies and applications for renewable heat, power and transportation. Students will learn how to apply their engineering knowledge to address the requirement for cost-effective carbon reduction solutions and appraise the global socio-economic challenges associated with renewable energy.

Modules will include:

  • Wind and Hydro Power Engineering
  • Solar Energy Engineering
  • Bioenergy Engineering
  • Thermofluid Systems
  • Alternative Propulsion Systems
  • Computer Aided Engineering
  • Sustainability and the Environment
  • Global Professional Development
  • Individual Project

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

This course addresses the need for skilled energy engineers. Students will develop a systematic understanding of knowledge, analytical techniques and research skills related to an MSc in Renewable Energy Engineering. Embedded in the course is a CMI management module to give students essential business management experience and transferable skills.

Globally, the total renewable energy capacity has quadrupled in the last ten years. In 2015, $286 billion was invested in renewables and, for the first time, more than half of all added power generation came from renewables. However, significant increases in growth are still needed if global renewable energy targets are to be achieved. In the UK alone, it is expected that more than half a million jobs in the renewable energy sector will have been created by 2020.

Renewable energy is set to expand even further as the UK aims to achieve an 80% reduction in greenhouse gas emissions by 2050, and similar targets are in place around the globe. Renewable energy also has a particularly important role to play in providing crucial services in developing countries to tackle poverty and support sustainable economic growth.

OPPORTUNITIES FOR AN INTERNATIONAL EXPERIENCE

Energy engineering companies are increasingly developing global partnerships. Extended supply chains and energy security in the context of sustainability and energy management will be considered throughout the course. Case studies for both developing and developed countries will be an area of focus, with teaching activities supported by international research projects. Group work and guest lectures from visiting international academics will be used to develop intercultural skills and experience.

GLOBAL LEADERS PROGRAMME

To prepare students for the challenges of the global employment market and to strengthen and develop their broader personal and professional skills Coventry University has developed a unique Global Leaders Programme.

The objectives of the programme, in which postgraduate and eligible undergraduate students can participate, is to provide practical career workshops and enable participants to experience different business cultures.



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This programme takes a multi-disciplinary approach to sustainable solutions for future energy needs, with an in-depth knowledge of the new emerging alternative technologies. Read more
This programme takes a multi-disciplinary approach to sustainable solutions for future energy needs, with an in-depth knowledge of the new emerging alternative technologies. It will prepare you for immediate contribution to the renewable energy sector, entering public, environmental, industry and commercial industries.

Why Renewable Energy and Environmental Modelling at Dundee?

Climate change is possibly the most significant threat that humanity has ever faced. A new generation of scientists, engineers and policy-makers will need to be equipped with skills to enable them to make informed decisions on all aspects of this important and rapidly developing subject.

Our Masters degree in Renewable Energy and Environmental Modelling is designed to produce graduates with a broad and balanced skills base.

We provide the opportunity for you to go on field trips and external conferences as a part of your coursework, and you will have the option of undertaking either an industry-based or research-related project.

What's great about this course at Dundee?

The Dundee MSc is intended to interact with the renewables industry on many levels, enabling frequent networking opportunities during the year. The conference-style modules also allow delegates from industry to attend and enhance their skills in an informal and friendly setting. Graduates from this degree will be able to make an immediate contribution to the renewable energy sector.

Dundee University Centre for Renewable Energy (DUCRE)

DUCRE brings together a wide range of scientists with strong interests in renewable energy and evironmental issues. Staff and students in the Centre are engaged in a wide range of diverse renewable energy and environmental research. Projects range from electric vehicle technologies, to wind, solar, and hydro technologies, and from energy policy issues to Third World environmental development analysis.

Who should study this course?

The MSc in Renewable Energy and Environmental Modelling suits students and professionals from diverse backgrounds, including scientists, engineers, environmentalists, and policy-makers.

The programme has been designed to appeal to graduates with first degrees in the physical sciences, engineering, environmental science and related subjects. However, all applications will be assessed on their merits, regardless of background, and any relevant experience will also be taken into consideration.

The start date is September each year, and lasts for 12 months.

How you will be taught

This course utilizes conference-style teaching - delivered in one week intensive bursts.

The taught element will be delivered using a lively mix of lectures, seminars, peer-based problem-solving, practical sessions and site visits.

What you will study

Modules cover environmental physics, law and policy, renewable energy technologies, environmental monitoring, and the hydrogen economy.

You will study/take part in:

Foundation in renewable energy
Energy regulation law and security of supply
Hydrogen economy (incorporating fuel cells)
Physical concepts: A primer in energy, electromagnetism & electronic materials
Renewables technologies: In depth investigation of existing & emerging technologies, supply & demand issues, conservation & architectural issues
Environmental modelling: hydrology, carbon cycling, wind, wave & solar modelling
Field trips
Project

How you will be assessed

Students are assessed on written and practical work, formal presentations and a project dissertation.

Careers

Graduates from this programme will be able to make an immediate contribution to the renewable energy sector and make informed decisions that will have an impact on the development of national programmes to meet future targets.

Each graduate will have a firm grasp of the predominant and emerging technologies, and will be able to set these in context using a range of environmental monitoring techniques.

"The MSc provided a good base to research renewable technologies and understand how they fit into the energy mix and government policy. After graduation, I am now employed as Chief Technical Officer at Scottish Renewables."
David Cameron, class of 2008

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Gain the theoretical and practical skills to explore the growing field of renewable energy technologies. Renewable energy technologies have become an important part of energy production. Read more
Gain the theoretical and practical skills to explore the growing field of renewable energy technologies.

Renewable energy technologies have become an important part of energy production. Strong initiatives and investments from the public and private sectors have made this a rapidly growing field and created further career opportunities in the sector.

This is one of the few courses offered at Masters level which not only encompasses renewable energy technologies but also complements with the essential related elements of renewable energy finance and environmental law.

These elements touch on financial analytical tools, project structuring, finance and management in renewable energy, while the law element will consider legal framework impacting upon renewable energy provision.

See the website http://www.napier.ac.uk/en/Courses/MSc-Renewable-Energy-Postgraduate-FullTime

What you'll learn

The course will extend your skills into various renewable energy technologies such as wind, solar, hydro, biomass, wave etc.

Study renewable energy capture, energy storage, energy audit and life-cycle analysis, as well as learning the concept of the system, design, development and applications.

The course is accredited by the Energy Institute, UK. Combined with a suitable accredited undergraduate degree, the MSc degree would then satisfy the academic requirements of the UK Engineering Council for Chartered Engineer (CEng) status.

Modules

• Sustainable energy technologies
• Solar energy: technology, modelling and analysis
• Renewable energy finance and environmental law
• Research skills and project management
• Distributed generation systems
• MSc Project module

Module choice of
• Control engineering
• Energy materials
• Mechatronic systems
• Sustainable urban property development

Study modules mentioned above are indicative only. Some changes may occur between now and the time that you study.

Career opportunities

• Consultancies
• Renewable energy industries
• Renewable energy technology/design
• Building services
• Research & development

How to apply

http://www.napier.ac.uk/study-with-us/postgraduate/how-to-apply

SAAS Funding

Nothing should get in the way of furthering your education. Student Awards Agency Scotland (SAAS) awards funding for postgraduate courses, and could provide the help you need to continue your studies. Find out more: http://www.napier.ac.uk/study-with-us/postgraduate/fees-and-funding/saas-funded-courses

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Take the opportunity to study on the UK’s first MSc Marine Renewable Energy programme. Read more
Take the opportunity to study on the UK’s first MSc Marine Renewable Energy programme. Building on our international reputation for marine research and teaching, the Peninsula Research Institute in Marine Renewable Energy (PRIMaRE) initiative and the South West Marine Energy Park, this distinctive degree focuses on the rapidly growing marine renewable energy sector. Gain expert knowledge in marine science, engineering, economics, law and policy, and undertake an independent research project.

Key features

-Be at the forefront of the emerging field of marine renewable energy at a time when such expertise is increasingly sought after.
-Learn in an environment which benefits from PRIMaRE investment in new staff expertise and facilities.
-Benefit from a programme fully-integrated with the £42 million wave hub project, the world's largest wave energy test site, off north Cornwall.
-Live and study in ‘Britain’s Ocean City’, with easy access to businesses and the natural environment involved in your area of study this is an ideal location to study marine renewables.
-Take the opportunity to study abroad in the research project phase and be supported by one Plymouth University supervisor and one supervisor overseas.
-Benefit from our research team’s expertise – our staff achieved ratings of ‘worldleading’ and ‘internationally excellent’ in the UK government’s most recent Research Assessment Exercise (RAE 2008).

Course details

The taught modules in the first period are compulsory and are designed to provide you with a broad background on marine renewable as well as a solid basis for the option modules in period two. You’ll undertake four modules in period one that provide a background in marine renewable energy: introduction to marine renewable energy, economics, law and policy for marine renewable energy, research skills and research methods. In periods two and three you’ll demonstrate your ability to implement a research project and produce an independent dissertation or paper of your own research. Many projects are carried out in association with active PRIMaRE research projects that staff are engaged in, including: resource characterisation, marine renewable energy systems, environmental and biodiversity impacts, coastal impacts, safe operations and navigational risk, underwater and surface electrical systems, socio-economic factors. Projects always have two supervisors.

Core modules
-MAR513 Research Skills and Methods
-MAR526 Introduction to Marine Renewable Energy
-MAR527 Economics, Law and Policy for Marine Renewable Energy
-MAR525 MRes Dissertation

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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WHAT YOU WILL GAIN. - Advanced skills and know-how in the latest advanced technologies in power generation through Renewable Energy technologies, for professional or highly-skilled work and/or further learning. Read more
WHAT YOU WILL GAIN:

- Advanced skills and know-how in the latest advanced technologies in power generation through Renewable Energy technologies, for professional or highly-skilled work and/or further learning
- Credibility as an advanced practitioner in Renewable Energy technologies
- Ability to make independent judgments and high-level decisions in a variety of technical or managerial contexts
- The knowledge and skills to be actively involved in the planning, implementation and evaluation stages of a range of Renewable Energy power generation systems
- An EIT Graduate Certificate in Renewable Energy Technologies

Next intake starts May 15th, 2017. Applications now open; limited places available.

INTRODUCTION

The Graduate Certificate in Renewable Energy Technologies is an advanced program. It is presented at a considerably higher level than the Advanced Diploma and bachelor degree level programs and intending students should be aware of the greater challenge. This Certificate has identical standing and level to that of a university graduate diploma, but is focused on the career outcomes of a professional engineer and technologist. As the title suggests, it has a greater vocational or ‘job related’ emphasis, and focuses more on developing practical skills that you can apply to the workplace, rather than theory alone.

A feature of this program is that in using web collaborative technologies you will not only study and work with your peers around the world on various renewable energy design projects, but you will do this conveniently from your desktop using the latest techniques in live web and video conferencing. The Graduate Certificate in Renewable Energy Technologies focuses on the mainstream technologies viz. photovoltaic, wind and small hydro, but also covers other less common technologies such as biomass, osmotic and tide power generation, among others. The course deals with practical issues of renewable energy that will confront an advanced practitioner in the field. For example, you will be exposed to the modeling and simulation of wind turbines, and the design of wind farms. You will also be expected to undertake advanced design and conceptualisation work in which you will apply the calculations learned in less advanced programs. Some of the work and study you will be undertaking will involve pioneering technology and exploring new approaches. There is a definite ongoing need for highly qualified and skilled specialists in the Renewable Engineering field and this course caters for that need. Upon completing this program you will be able to show technical leadership in the field of Renewable Energy, and be recognised as an advanced practitioner in the field.

PRE-REQUISITES

Applications are considered on a case-by-case basis. Potential students include:

- Practising engineers or technologists with advanced knowledge, experience and education (such as an Advanced Diploma, or undergraduate degree)
- Practising engineers or technicians with demonstrated competence
- Engineers or technologists from another discipline (such as mechanical and chemical engineering) wanting to up-skill in this area
- It would not be suitable for a student with no relevant work experience. We will review your enrolment application and may recommend pre-course studies if required.

COURSE STRUCTURE

The Graduate Certificate is an intensive part-time program, conducted over 6 months. Unlike other universities or academic institutions, we operate almost all year round without extended breaks between semesters. The course is composed of 4 units, each conducted over 6 weeks.

Unit 1 - Fundamentals and Balance-of-Plant Components
Unit 2 - Small Hydro and Other Renewable Energy Technologies
Unit 3 - Photovoltaic (PV) Systems
Unit 4 - Wind Turbine Systems

COURSE FEES

What are the fees for my country?

The Engineering Institute of Technology (EIT) provides distance education to students located almost anywhere in the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. A full list of fees in a currency appropriate for every country would be complex to navigate and, with today’s exchange rate fluctuations, difficult to maintain. Instead we aim to give you a rapid response regarding fees that is customised to your individual circumstances.

We understand that cost is a major consideration before a student commences study. For a rapid reply to your enquiry regarding courses fees and payment options, please enquire via the below button and we will respond within 2 business days.

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This internationally-leading joint EngD with IDCORE aims to meet the UK’s ambitious deployment targets for offshore renewable energy technologies. Read more
This internationally-leading joint EngD with IDCORE aims to meet the UK’s ambitious deployment targets for offshore renewable energy technologies.

An EngD is a four year research degree awarded for industrially relevant research, the degree provides a more vocationally oriented approach to obtaining a doctorate in engineering commensurate with that of a PhD.

Led by the University of Exeter at its Penryn Campus and based at the University of Edinburgh, this EngD programme is delivered through a partnership with the universities of Edinburgh, Strathclyde and Exeter together with the Scottish Association for Marine Science and HR-Wallingford.

The programme will allow you to receive postgraduate-level technical and transferable skills training at three leading UK universities in the renewable energy research field together with the Scottish Association for Marine Science and HRWallingford. This university and industry collaboration forms the Engineering and Physical Sciences Research Council (EPSRC), RCUK Energy programme/ETI-funded Industrial Doctorate Centre in Offshore Renewable Energy (IDCORE).

Students will benefit from a vibrant learning environment and, in partnership with industry, will learn to deliver world-class industrially-focused research outcomes that will accelerate the deployment of offshore wind, wave and tidal-current technologies. This will help the UK to meet its 2020 and 2050 targets for renewable energy generating capacity, and expand and sustain a community of high-quality post-doctoral staff for the UK offshore renewable energy industry.

This programme will produce highly trained scientists and engineers, they will gain the skills, knowledge and confidence to tackle current and future offshore renewable energy challenges. This includes developing new techniques and technologies to design, build, install, operate and maintain devices in hostile environments at an affordable economic cost with minimal environmental impact.

This will reinforce and support the UK’s conjoined infrastructure, which begins in the best academic research centres with leading test facilities and extends through a unique combination of demonstration facilities, ultimately to test and deployment sites.

Programme structure

Each Research Engineer will spend approximately 25% (180 credits) of his or her time in a structured training programme.
The following are some examples of the taught modules;
Introduction to Offshore Renewable Technologies; Hydrodynamics of Offshore Renewable Energy Devices; Electromechanical & Electronic Energy Conversion Systems; Marine Renewable Resource Assessment; Economics Tools for Offshore Renewables; Physical Model Testing for Offshore Renewables; Structural Behaviour of Offshore Renewable Energy Devices; Electricity Network Interaction, Integration and Control; Moorings and Reliability and Innovation Design and Manufacturing Management.

Research project

Research Projects will comprise 540 credits, amounting to 75% of the research engineer effort on the EngD. Research Engineers will attend a total of three summer schools during their projects, and will attend the annual Company Day, and appropriate technical conferences

Research projects are proposed by renewable energy companies in wave, tidal and offshore wind energy. Projects are allocated during the first year of the programme, at the beginning of the second semester (in January). The Research Engineer will take an active role in defining his or her professional development programme in line with the needs of the research project and his or her individual aims.

The modules we outline here provide examples of what you can expect to learn on this degree course based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand.

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Your programme of study. If you want to get into renewable energy University of Aberdeen offer an online programme which you can study flexibly to fit around your work, life and anywhere in the world. Read more

Your programme of study

If you want to get into renewable energy University of Aberdeen offer an online programme which you can study flexibly to fit around your work, life and anywhere in the world. It is a great way to study a degree from a known and trusted brand with exactly the same content as the on campus version but delivered entirely online.

Renewable energy engineering is in high demand globally as we find alternate methods of energy harvesting to meet our future energy needs and future proof our reliance on hydrocarbons as much as it is possible to do. Considerable innovation and improvements are continuous within this field as it is by no means at a stage where society can rely on it to fuel all needs. The sector is interdisciplinary and this programme provides you with a wide range of very useful skills and knowledge to problem solve and progress current renewables and work towards innovation whether that is in a renewables company or as a start up.

You study electrical and electronic engineering pertinent to smart grid, sensing energy use, developing energy harvesting techniques, and renewable energy exchange, plus ability to harvest energy from all of our natural resources including wind, solar, hydro, marine, geothermal, biomass and other newly developing areas. Renewables is definitely an employable sector as governments are now challenged by finite resources coming from traditional areas, climate change and societal concerns about how we harvest energy in the future and our ability to survive climatic issues, population increase and manage work and life.

Courses listed for the programme

Year 1

  • Renewable Energy 2 (Biomass)
  • Fundamental Safety Engineering and Risk Management Concepts
  • Energy Conversation and Storage
  • Legislation, Planning and Economics

Year 2

  • Electrical Systems for Renewable Energy
  • Renewable Energy 1 (Solar and Geothermal)
  • Renewable Energy Integration to Grid
  • Renewable Energy 3 (Wind, Marine and Hydro)

Year 3

  • Individual Project

Find out more detail by visiting the programme web page

or if you want to study on campus find out more

Why study at Aberdeen?

  • You are taught by industry professionals and the engineering department each are highly regarded in their fields
  • The programme is delivered flexibly so you can choose how best to study with various options at your disposal
  • You cover energy harvesting methods and their integration into the grid plus planning and economics, ideal for enterprise and innovation
  • The sector is driven by a need which shows no signs of stopping in terms of necessity to life so there are plenty of opportunities

Where you study

  • Online
  • 5 Months or 27 Months
  • Part Time
  • September or January start

International Student Fees 2017/2018

Find out about international fees:

Find out more about fees on the programme page

*Please be advised that some programmes also have additional costs.

Scholarships

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

Related Degrees

Other engineering disciplines you may be interested in:



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With declining fossil energy resources, environmental pollution and climate change, the need for sustainable energy supply is becoming more important. Read more
With declining fossil energy resources, environmental pollution and climate change, the need for sustainable energy supply is becoming more important. The international community has agreed upon the use of renewable energy as an instrument towards a sustainable energy development. Management of energy resources and technologies is a global issue and it needs well trained workforce – from policy level to practitioner level.

The objective of the program is to form such experts. Focusing on developing countries in the tropics and subtropics the MSc. Renewable Energy Management emphasizes a holistic approach considering both technical and socioeconomic aspects of energy management. Participants are provided with appropriate knowledge, methods and skills to analyze current problems in the field of renewable energy usage and related sectors.

Target groups of the program are recently graduated professionals with working experience in public or private institutions, authorities and enterprises of the energy sector. The applicants should be active in or dealing with energy or natural resources management and have an interest in learning and working in an intercultural and multidisciplinary environment.

The master program “Renewable Energy Management” (REM) provides a practice oriented and skills-based learning experience in which students develop their capacity for critical thinking, and creative problem solving. It addresses bachelor’s degree holders principally in Engineering, Natural Sciences and Social Sciences with experience in the area of energy, who aim to deepen their knowledge in Renewable Energy Resources Management and wish to acquire management and leadership skills as well as regional and intercultural competences. These experts should have a sound knowledge base in one of the many fields of renewable energy management. They ought to be able to assess renewable energy resources and develop appropriate solutions considering the complex linkages of renewable energy with economic, social and ecological aspects.

Contents

The studies cover a period of four semesters. The fourth semester is dedicated to the master thesis.

The didactic concept consists of two components: a technical and a social. The technical component provides the participants with the relevant and up to date knowledge necessary to take decisions towards a sustainable management of natural resources. The social component is equally important and aims at equipping the participants with the communicative, intercultural and managerial skills necessary to take up leadership positions in the natural resources sector and to work effectively in the framework of international cooperation.

Some of the core modules covered in this master include: Management of natural resources systems, International Cooperation and Development, Economics and governance. These are complimented by Methods and Tools such as using the Geographic Information System and Remote Sensing, environmental monitoring and Statistics, and learning to apply the knowledge in Projects.

Tuition

Semester contribution fees, additional fees for field trips, conference participation and course materials. For more information on the semester contribution fees: https://www.th-koeln.de/en/academics/fees_5908.php

Funding

Applicants may receive one of the limited numbers of scholarships. Available are full time scholarships from the DAAD EPOS Program for applicants from DAC-list countries.

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This is an advanced, specialist programme in the rapidly expanding area of renewable energy engineering with a clear Mechanical Engineering focus. Read more

This is an advanced, specialist programme in the rapidly expanding area of renewable energy engineering with a clear Mechanical Engineering focus. The programme is aimed at students wishing to develop critical understanding of the significant changes afoot in the energy system due to the development and integration of wind, marine, biomass and solar technologies. The programme will enable graduates to develop and implement creative solutions to the problems encountered in renewable energy capture, conversion, storage and management.

Students will gain the knowledge and skills to assess renewable energy resources, design appropriate renewable energy systems, evaluate the performance of these systems and assess the wider impacts of renewable energy development. The programme provides introductory courses to fundamental energy science and current energy issues, while the project-led courses focus on the design of renewable energy systems. The programme concludes with a research-led dissertation in the summer.

Renewable energy research focuses on six main areas:

  • Photovoltaics and Solar Energy
  • Wind and Marine Energy
  • Renewable Energy Systems
  • Minimising CO2 Emissions
  • Biofuels
  • Wind and Marine Energy


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