MSc Program in Energy

Top 155 Masters of Science (MScs) in Energy 2017

Energy

Msc stands for Master of Science. It is a postgraduate educational master's degree given by universities in a wide number of nations. The degree is typically studied for in the sciences and occasionally in the social sciences.

Master of Science Degree in Energy

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MSc in Project Management (Oil & Gas)

University of Liverpool Online Programmes
Online Full time Part time Open Enrolment United Kingdom UK Online

Choose the fully online MSc in Project Management with a specialisation in Oil & Gas to gain the knowledge, skills and confidence to deliver advanced project management in the energy sector. Develop strategic project management skills that are [+]

Masters of Science in Energy. Choose the fully online MSc in Project Management with a specialisation in Oil & Gas to gain the knowledge, skills and confidence to deliver advanced project management in the energy sector. Develop strategic project management skills that are highly sought after globally in every sector. Modules include Sustainable Programme and Portfolio Management, Oil and Gas Management, and Management of Energy. The University of Liverpool has been reviewed and approved as a provider of project management training by the Project Management Institute (PMI). This online MSc in Project Management programme is covered by the University of Liverpool Management School’s AACSB Accreditation [-]

MSc Sustainable Energy Technology

Xi'an Jiaotong-Liverpool University
Campus Full time 18  September 2017 China Suzhou

The MSc Sustainable Energy Technology programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage for engineers with a high level of training in renewable energy, smart grids and sustainability. [+]

Overview The MSc Sustainable Energy Technology programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage of engineers with a high level of training in renewable energy, smart grids and sustainability. By the time you graduate, you will have a thorough understanding of sustainability standards, various renewable energies, smart grid and power electronics for renewable energy and energy use management in buildings, urban design and other areas. Research on sustainable energy technology has opened up many job opportunities in industry, government institutions and research centres. Lab facilities include: • a power electronics laboratory equipped with advanced experimental equipment • a sustainable energy laboratory equipped with advanced experimental equipment including a 600W wind turbine, two 270W solar modules, batteries, an inverter with sinusoidal output and main controller • an electric machine and power system laboratory. Graduates of this programme, as with all XJTLU masters degrees, earn a University of Liverpool degree that is recognised by the Chinese Ministry of Education. Knowledge and skills By studying MSc Sustainable Energy Technology you will benefit from: • studying at an international university recognised throughout the world • close cooperation with world-famous universities and research centres to solve major technical challenges including energy crises and environmental pollution • excellent research opportunities, using advanced experimental equipment including a network analyser, power analyser, Dspace controller, wind turbine and PV testing system • continuous development of core modules to meet the requirements of industrial innovation • cutting-edge research in the intelligent and efficient utilisation of solar, wind energy and other renewable energy sources. Modules • Sustainable energy and the environment • Nuclear energy technology • Power system network and smart grids • Integration of energy strategies in the design of buildings • Photovoltaic energy technology • Renewable kinetic energy technologies • Power electronics and applications for renewable energy • Sustainable urban planning strategies • Dissertation. Additional learning activity modules Careers Graduates of this programme will typically work on professional tasks including the implementation of sustainable energy technologies within existing or new systems, and modelling and evaluation of the impact on ecosystems, economics and society. Graduates may be employed as electric power system engineers, electric power system consultants, electric power projects managers, sustainable cities and building design consultants, managers and team leaders in government. Fees RMB 90,000 for the entire 18 month full-time programme. University tuition fees cover the cost of your study with us. Entry requirements: academic background An undergraduate degree (UK 2:1 or equivalent) in a relevant field such as electrical engineering, electronic science and technology, telecommunication engineering, computer science and technology, mathematics, semiconductor physics, automation and control, embedded systems, engineering thermal physics or other related disciplines. English language requirements • IELTS: 6.0 (minimum of 5.0 in all sections) • TOEFL iBT: 80 [-]

European Master in Sustainable Energy System Management

Hanze University of Applied Sciences - Groningen, the Netherlands
Campus Full time September 2017 Netherlands Groningen

One of the greatest challenges of our time is the transition towards a sustainable energy system, based on renewable energy sources. A new generation of innovative professionals, equipped with interdisciplinary thinking and up-to-date knowledge, skills and tools can turn this challenge into a success. Talented young people are needed. [+]

Masters of Science in Energy. European Master in Sustainable Energy System Management: www.hanzegroningen.eu/msesm * Tuition fees: EU/EEA: € 2,006 (per year)/ NON-EU/EEA: € 11,500 (full tuition fee). However, an EU student already holding a Dutch master's degree will pay €7,300, for the full programme. Energy transition is your future! One of the greatest challenges of our time is the transition towards a sustainable energy system, based on renewable energy sources. A new generation of innovative professionals, equipped with interdisciplinary thinking and up-to-date knowledge, skills and tools can turn this challenge into a success. Talented young people are needed. Programme overview During the core semester you acquire a solid foundation in economics and business concepts. These are related to innovative energy project design and related aspects of the energy business. Combined with planning, strategic decision-making and communication, this core knowledge will allow you to analyse energy business challenges from an interdisciplinary perspective. The core semester can be followed at either Hanze UAS or the University of Pisa. Themes of the core semester Sustainable energy sources overview Technologies, plants and integration System innovation processes Environmental issues European experiences and history Markets, business, economics and law Models and scenarios for strategic decision-making Communication and (project) management Specialisation The second semester focuses on systems operations and optimization (Netherlands) or on sustainable energy management (Spain). In-depth conceptual lectures are accompanied by practical assignments and technically orientated company visits. As a student you are required to actively contribute to the course content by presenting papers and carrying out research tasks. System integration and optimisation - Hanze UAS (the Netherlands) System model applications Infrastructure and renewables Intelligent information services Business case economics and law International case Part 1: (Energy) business plan development International case Part 2: Applied research in sustainable systems Sustainable energy management - University of Zaragoza (Spain) Socio-economic aspects of energy Renewable energy markets Electricity and efficiency energy markets Systems and tools for energy management (1) Systems and tools for energy management (2) Start up and management of energy service companies (ESCOs) and projects. Project and thesis The third and last semester you will apply your knowledge and skills in a research project at a company or a research centre. Based in this research you will write your thesis under the supervision of a (core) professor, a professor of the specialisation and a professor from the project provider. [-]

MSc in Oil & Gas Engineering

International Studies Ltd
Online & Campus Combined Full time Part time February 2017 United Kingdom London UK Online + 2 more

Oil & Gas Engineering is a field of engineering concerned with the activities related to the production of hydrocarbons, which can be either crude oil or natural gas. Exploration and manufacturing activities are the oil and gas industry's two main disciplines: they focus on maximizing economic recovery of hydrocarbons from subsurface reservoirs and on their processing, distribution and transportation. [+]

The Meaning of Oil & Gas Engineering Oil & Gas Engineering is a field of engineering concerned with the activities related to the production of hydrocarbons, which can be either crude oil or natural gas. Exploration and manufacturing activities are the oil and gas industry's two main disciplines: they focus on maximizing economic recovery of hydrocarbons from subsurface reservoirs and on their processing, distribution and transportation. The Skills of Oil & Gas Engineers Oil & gas engineers locate, recover, and maintain the world's oil and gas supplies. First of all they are the innovators who use cutting-edge technology to create new methods of discovering and drilling for oil. Besides, as industrial specialist, oil & gas engineers work directly for pressure systems manufacturers, petrochemical corporations, materials processors, large construction contractors, large industrial product consumers or the wholesale distributors that service these industries. Although there are various job descriptions, oil & gas engineers all serve one function-to provide the world with energy, while safeguarding the environment for future generations. The Workplace of Oil & Gas Engineers Oil & gas engineers often work on offshore drilling platforms, in oil fields and reserves and in distributing plants around the world. Some of the duties include recording and updating information on all drilling and processing activities, ensuring compliance with laws and regulations, determining the most productive locations, taking responsibility for safety and efficiency, ensuring well maintenance, interpreting results, ensuring efficient well flow, overlooking the removal of all waste and equipment from drill sites, designing pressure systems for the storage and distribution of oil and gas. Most careers involve a combination of office-based and advanced, computer-oriented technology work. Plus, oil & gas engineers typically have numerous opportunities to travel across the globe for a variety of work-related projects. The world will always need energy. Oil & gas engineers must answer the call to find innovative technologies and new resources to meet the increasing demands for energy: they will also lead the way into the future and will have the opportunity to truly make a difference. This is an exciting and unique time to join the industry. Our Study Plan in Oil & Gas Engineering This university program in Oil & Gas Engineering aims at giving a thorough analysis and understanding of problems, challenges and solutions associated with all parts of the supply chains dealing with the oil and gas industry, on-shore as well as off-shore: petroleum fundamentals and exploration, reservoir characterisation, reservoir engineering and simulation, well engineering, purchasing, production planning, design of pressure systems, unconventional resources, inventory management and downstream distribution planning, energy economics management and risk analysis. Along with knowledge of a broad range of logistics topics, the program gives an understanding of the energy situation in the world comparing existing renewable energy sources, as well as non-renewable sources both in terms of costs, qualities and availability. The candidates will use a mixture of lectures, tutorials, laboratory sessions and project work and in addition they spend significant time in our laboratories, as well as in private study directed by lecturers. Place This course can be supplied completely online or in blended mode (online and classroom) in London Start date February 2017 Duration 1 year Price 5.500 GBP (study material, tutoring and use of daily facilities included) [-]

MSc in Oil, Gas and Energy Engineering

University of Nicosia
Online Full time Part time September 2017 Cyprus Nicosia + 1 more

The aims of the MSc distance learning programme in Oil, Gas and Energy Engineering are to prepare graduates to succeed in a constantly growing, demanding, and highly competitive technological world. [+]

Masters of Science in Energy. Duration (years): 1.5 years Qualification Awarded: Master of Science in Oil, Gas and Energy Engineering Level of Qualification: 2nd Cycle (Master’s Degree) Language of Instruction: English Mode of Study: Full-time or Part-time Minimum Credits: 36 Minimum ECTS Credits: 90 Profile of the Programme: The aims of the MSc distance learning programme in Oil, Gas and Energy Engineering are to: 1. Prepare graduates to succeed in a constantly growing, demanding, and highly competitive technological world; 2. Provide specialisation and extensive knowledge in the area of oil, gas and energy engineering; 3. Create an academic environment conducive to learning new oil, gas and energy engineering concepts and technologies; 4. Introduce students to the emerging technologies in the oil & gas sector; 5. Foster analytical skills and critical thinking; 6. Promote engineering ethics and moral practices. Career Prospects: Oil, Gas and Energy Engineering offers very strong career prospects as it prepares graduates to assume positions in the global oil & gas sector. With energy consumption growing steadily on a global scale, and investments in drilling and exploitation of energy resources, in particular gas and oil, are anticipated to continue strong in the long run. Hence, the global employment outlook appears promising. The drive for locating and extracting new and existing oil & gas resources offers well paid and rewarding careers in hydrocarbon producing and refining countries. Graduates of the Masters’ programme can be employed by oil field service companies, independent and national oil companies, oil and gas trading firms, contractors, advisory organisations, chemical companies and energy regulators. Access to Further Studies: Graduates of the programme can be accepted into Third Cycle degrees (Doctorate Degree) Graduation Requirements The student must complete 90 ECTS and all programme requirements. A minimum cumulative grade point average (CPA) of 2.0 is required. Thus, although a ‘D-‘ is a PASS grade, in order to achieve a CPA of 2.0 an average grade of ‘C’ is required. Learning Outcomes Upon successful completion of the programme, the students should be able to: Utilise knowledge and understanding of oil and gas science and engineering and apply safety and risk management techniques; Diagnose, formulate and solve complex oil, gas and energy engineering problems; Design and conduct experiments, as well as to analyse and interpret data; Design a system, component, or process to meet desired needs within realistic constraints; Analyse and assess the economics of the oil and gas industry and the oil and gas energy markets; Formulate solutions that meet the desired needs within the economic, manufacturing and sustainability borders; Use the techniques, skills, and modern engineering tools necessary for engineering practice and research; Function and communicate effectively in multidisciplinary teams. [-]

Master of Nuclear Engineering (Leuven et al)

KU Leuven - University of Leuven
Campus 60  September 2017 Belgium Leuven

Nuclear technology plays a crucial role in a wide variety of contexts and sectors in Belgium, including power production, waste management, nuclear fuel production, etc. The Belgian Nuclear Higher Education Network (BNEN) combines the expertise in nuclear education and research of six major Belgian universities (KU Leuven, Ghent University, VUB, UCL, ULG and ULB) with the Belgian Nuclear Research Centre SCK-CEN. [+]

Nuclear technology plays a crucial role in a wide variety of contexts and sectors in Belgium, including power production, waste management, nuclear fuel production, etc. The Belgian Nuclear Higher Education Network (BNEN) combines the expertise in nuclear education and research of six major Belgian universities (KU Leuven, Ghent University, VUB, UCL, ULG and ULB) with the Belgian Nuclear Research Centre SCK-CEN. What is the Master of Nuclear Engineering about? Nuclear technology plays a crucial role in a wide variety of contexts and sectors in Belgium, including: power production nuclear fuel production radioelement production engineering accelerator design and fabrication waste management safety management nuclear medicine research The Belgium Nuclear Higher Education Network combines the expertise in nuclear education and research of six major Belgian universities (KU Leuven, UGent, VUB, UCL, ULG and ULB) with the Belgian Nuclear Research Centre. Structure The current programme can be divided into three core blocks: Introductory courses allowing refreshing or first contact with the basic notions of nuclear physics, material sciences and the principles of energy conversion through use of nuclear phenomena, supplemented by a core block of nuclear engineering applied to electricity generation and reactor use; theory of reactors and neutronics, thermal hydraulic phenomena during reactor operation, the nuclear fuel cycle and specific material-corrosion problems. A block of elective courses that allow students to deepen certain topics of their choice. A Master’s thesis. The collaboration with SCK*CEN makes it possible to include actual use of facilities in the curriculum, supporting the development of skills and competences in a research environment. All subjects are taught by academics appointed by the partner universities, whereas the practical exercises and laboratory sessions are supervised by the experts of SCK*CEN. The Master’s thesis offers an opportunity for internship in industry or in a research laboratory. All teaching activities take place on the premises of SCK*CEN. Courses are organized in English and in a modular way; teaching in blocks of one to three weeks for each module allows optimal time management for students and lecturers, facilitates registration for individual modules, and allows easy exchange with international students. BNEN has served as a role model for the European Nuclear Education Network (ENEN) which now has become an association of over 60 members (universities, industry, regulators, research centres), aiming at facilitating mobility in Europe for students in nuclear engineering. On particular aspect of the BNEN degree is that it automatically leads to the recognition as Class I Expert by the Federal Agency of Nuclear Control. In order to receive this accreditation the programme must at least offer 24 credits in Nuclear Safety and 12 credits in Radioprotection. Spotlight The Master of Science in Nuclear Engineering programme is an internationally oriented, interuniversity programme organized by BNEN in close collaboration with nuclear research centres and industry. The aim of the BNEN programme is to provide students with all the skills and scientific and technical background necessary to carry out duties at a high level of responsibility in order to ensure the safe and economical operation of nuclear power plants, the regulation and control of nuclear installations or to design new nuclear systems. A major strength of the BNEN programme, as to its sustainability, is that it allows providing high quality academic education by experts from (or appointed by) the main Belgian universities at low individual cost and thus very efficiently harmonized/rationalized. In addition, the participation of the nuclear research centre SCK*CEN in the consortium provides superb realistic experimental facilities in a difficult (radioactive) environment at low cost for the universities. A further fundamental strength of the programme can be found in the fact that a well-balanced curriculum is offerded where the contents and format have been discussed at length with representatives of the major nuclear companies that are the first potential employers of the graduates. Objectives and programme outcomes were defined that encompass in depth disciplinary specific competences as well as, but in a less pronounced way, transferable skills and competences that are needed for an efficient integration of a graduate in a larger engineering team. There is a nearly complete overlap between objectives and realized competences in courses, electives, exercises and Master’s thesis. This can be ascribed to the following contributing factors: There is a good balance between theory and practical skills. This is implemented through an appropriate diversity of didactic formats, including exercises and/or labs for nearly all courses. There is a good balance between basic subjects and advanced subjects through elective course modules and topical days organized by SCK*CEN. There is appropriate care for multidisciplinary scientific competences and for transferrable skills through the importance given to the Master’s thesis. The competences of the teaching staff (lecturers and assistants) with respect to the theoretical background are strong. There is a good mix of junior and senior lecturers. The education in programmes is backed by world-class research at the universities, the research center and the involvement of teachers working in international research institutes. The involvement of several professors who have their principal employment in nuclear companies. There is a large and dynamic group of young researchers involved in the course teaching (seminars), labs and exercises sessions and as mentors of Master’s theses. Both in the professors and the young researchers are very active in the major international research programmes and associations related to applications of nuclear phenomena. Is this the right programme for me? Students entering the programme are expected to have a solid background in engineering, mathematics and physics. They should possess a problem-solving attitude and a genuine spirit for safety. Incoming students must hold an academic degree in engineering (Master of Science in Engineering or Agricultural Engineering, based on a programme of at least 300 ECTS. Holders of a 4-year Master's degree in industrial engineering and sciences (physics, chemistry, etc.) are required to take an entrance exam amounting to the material covered in 'adjustment courses' equivalent to a maximum load of 30 ECTS. Former Industrial Engineering majors need to compensate for a lack of mathematics and science related background; science majors need to compensate for typical engineering subjects. Objectives The aim of the programme is to deliver experts in the field of nuclear energy generation, the construction of facilities for appropriate use and the follow-up of safety procedures concerning nuclear processes. At the end of the programme the students will have acquired : - understanding of nuclear processes (physics); - understanding of the procedures and techniques necessary to control nuclear processes (hydraulics, reactor technology, operation and controls management); - understanding of safety and reliability procedures; - understanding of nuclear waste treatment and safety; - the capacity to create and maintain structures to control nuclear processes; - the capacity to take part in industrial processes related to the generation of nuclear energy; - communicative capacities; - the capacity to take part in further research concerning this topic. Career perspectives Upon completion of the Master's programme in Nuclear Engineering, students will have acquired: a thorough understanding of nuclear physical processes; a comprehensive knowledge of the procedures and techniques necessary to control nuclear processes; an in-depth knowledge of nuclear safety, reliability procedures and nuclear waste treatment; the competence to design and maintain structures to control nuclear processes; communicative skills in the field of nuclear technology and the capability to participate in research concerning the above mentioned topics. Graduates possess the necessary skills and knowledge to carry out duties at a high level of responsibility in: nuclear power plants nuclear research reactors nuclear regulatory organisations nuclear engineering firms nuclear fuel fabrication nuclear waste treatment radio-isotope production In addition, the degree itself is an important part of the legal qualifications necessary to become a safety professional in a major nuclear installation. Non-native English students are required to submit a TOEFL or IELTS certificate. The minimum score required for IELTS is 7 (with no subscore under 6.5), for the TOEFL internet-based test it is 94 (with no subscore under 92) Click here to read more [-]

MSc Global Energy and Climate Policy

SOAS University of London
Campus Full time Part time 1 - 3  September 2017 United Kingdom London + 1 more

The MSc Global Energy and Climate Policy (GECP) is the first Masters programme to jointly address the issues of climate and energy policy in an interdisciplinary fashion. It tackles policy and regulatory change, the historical and technological evolution of energy sources, energy markets and their participants, the global governance of climate change as well as the challenges associated with transitioning to a low-carbon economy. [+]

Masters of Science in Energy. MSc Global Energy and Climate Policy Duration: One calendar year (full time). Two or three years (part time). Minimum Entry Requirements: A minimum upper second class honours degree (or equivalent). Candidates with a lower class degree but degree-relevant work experience may be considered. Start of programme: September intake only Mode of Attendance: Full Time or Part Time Who is this programme for? The MSc Global Energy and Climate Policy (GECP) is the first Masters programme to jointly address the issues of climate and energy policy in an interdisciplinary fashion. It tackles policy and regulatory change, the historical and technological evolution of energy sources, energy markets and their participants, the global governance of climate change as well as the challenges associated with transitioning to a low-carbon economy. The programme specifically addresses the requirements of those wishing to deepen their theoretical and practical understanding of how energy and climate policies are designed, shaped, advocated and implemented and by whom across a multitude of cases drawn from the Global North and South and across multiple levels of political organisation from global to local arenas. The MSc is designed for those engaged with or planning a career in professional contexts relating to energy and/or climate policy. It prepares for a multitude of careers in public and private contexts, including in public administration and government departments, strategic policy and risk advisory, government relations and public affairs, policy advocacy, think tanks and academia. Guest speakers on the programme's modules have included Angus Miller (Energy Advisor, UK Foreign Office), Tom Burke (Founding Director, E3G and Environmental Policy Advisor, Rio Tinto), Jonathan Grant (Asst. Director Sustainability and Climate Change, PwC), Kash Burchett (European Energy Analyst, IHS Global Insight), Chris Dodwell (AEA Technology, former Head of International Climate Policy, UK Department of Energy and Climate Change) and Andrew Pendleton (Head of Campaigns, Friends of the Earth). The programme draws on the teaching and research strengths of CISD and of the SOAS departments of International Politics, Law, Economics and area studies (especially of Asia, Africa and the Middle East) as well as a wide range of languages. In particular, students will be able to benefit from the expertise located at the Centre for Environment, Development and Policy (CEDEP), the Law School's Law, Environment and Development Centre (LEDC), the Centre on the Politics of Energy Security (CEPES), the Centre for Water and Development, and the SOAS Food Studies Centre. In addition to the three core modules of Global Energy and Climate Policy (1 unit), Applied Energy and Climate Studies (0.5 units) and Global Public Policy (0.5 units) students choose a fourth module to meet their specific professional needs and personal interests. Students on this course will have the opportunity to participate in CISD's Study Tour of Paris and Brussels. Programme objectives Excellent understanding of the nature and development of global energy and climate policy, drawing on a variety of contributing disciplines Excellent knowledge of regulatory challenges and their impact on public and private stakeholders in both the Global South and North Ability to critically contribute to contemporary policy debates about reforms of international energy and climate governance architectures and their interaction with national and sub-national policy and regulatory frameworks Development of practical skills including policy analysis and policy advocacy, risk analysis, strategic communication and media We welcome applications from a wide variety of fields and backgrounds. It is not necessary to have a degree in a discipline directly related to global energy and climate policy. Each application is assessed on its individual merits and entry requirements may be modified in light of relevant professional experience and where the applicant can demonstrate a sustained practical interest in the international field. Structure Students take taught modules to the value of 3 full units plus 10,000 word dissertation One unit and two half units from A (compulsory) One unit (or two half units) from B or C Dissertation (compulsory) on a topic related to the programme’s core themes A). Global Energy and Climate Policy modules Applied Energy and Climate Studies Global Energy and Climate Policy Global Public Policy B). Additional modules available from the Centre Energy Policy in the Asia-Pacific International Politics of Transitional Justice International Relations 1; Foundations of World Politics International Relations 2; Contemporary world Politics International Law 1; Foundation International Economics International Security Multinational Enterprises in a Globalising World – Economic and Legal Perspectives Sport and Diplomacy: "More than a Game" History and future of the United Nations Global Advocacy C). Electives An elective module can be chosen from a wide variety available at SOAS dependent upon permission being granted by the module convenor and the student’s prior academic qualifications. Suggested electives for Global Energy and Climate Policy students Full Unit modules (1.0) Climate Change Law and Policy Law and Natural Resources International Environmental Law Half Unit modules (0.5) Contesting Natural Resources, Rural Livelihoods and Globalisation Famine and Food Security Water Law: Justice and Governance Water and Development: conflict and governance Disclaimer We cannot guarantee that all elective modules offered during the pre-registration period will be available for each academic session. Important notice regarding changes to programmes and modules Teaching & Learning The programme may be taken in one year (full time) or in two or three years part time with the schedule designed to allow participation by those in full time employment. Participants may choose a combination of courses to meet their professional needs and personal interests. The programme is convened on a multi-disciplinary basis, and teaching is through lectures, tutorials and workshops conducted by SOAS faculty and visiting specialists. The Centre endeavours to make as many of the courses for Global Energy and Climate Policy (GECP) accessible to part time students. The majority of CISD lectures are at 18.00 where possible however lecture times will be rotated on a yearly basis for some courses (between evening and daytime slots) so that part time students will have access to as many courses as possible over the duration of their degree. Associated tutorials are repeated in hourly slots with the latest taking place at 20.00. Students sign up for tutorial groups at the start of term and stay in the same group throughout the academic year. There is a minimum of two and a half hours formal teaching a week (lecture and tutorial) for each GECP course taken. Practical exercises may take place at weekends. Teaching includes Theory and practice of global energy and climate change policy as intertwined global issues Practical toolkit including policy analysis and planning, risk analysis, strategic communication, policy advocacy and negotiation skills Interaction with policymakers and government officials, energy industry and NGO representatives, and other practitioners An elective from a wide range: International Relations, International Law, International Economics, International Security, Multinational Enterprises in a Globalising World or a course offered by other SOAS departments (e.g. Development Studies, Politics, Economics, Law) Further activities Also included in the degree programme: Week-long study trip to energy and climate change related organisations in Brussels and Paris Advanced media and communication skills training by current and former BBC staff Participation in workshops attended by public and private sector stakeholders Opportunity to organize and run the Centre’s annual Energy and Climate Policy conference Guest lectures by leading scholars and senior practitioners (visit the CISD website to listen to the podcasts) A Student's Perspective "I applied for the masters in Global Energy and Climate Policy at SOAS because the course description was ideally suited to my academic interests and career ambitions. I would strongly recommend this course to anyone with an interest in contemporary energy and climate issues, and the associated dark arts of policy and politics. Press coverage of real life events often coincided with a particular lecture topic, which was testament to the relevance of the course content to today’s challenges and opportunities. All in all, this was an excellent course addressing timely and topical issues, taught by enthusiastic and very knowledgeable lecturers in a first class establishment." Tim Rippon [-]

MSc Sustainable Energy and Entrepreneurship

Nottingham University Business School
Campus Full time Part time 1 - 2  August 2017 United Kingdom Nottingham + 1 more

The MSc Sustainable Energy and Entrepreneurship is offered by the Department of Architecture and Built Environment in conjunction with the Nottingham University Business School. This course provides students with advanced skills in renewable energy, energy efficiency and business... [+]

The MSc Sustainable Energy and Entrepreneurship is offered by the Department of Architecture and Built Environment in conjunction with the Nottingham University Business School. This course provides students with advanced skills in renewable energy, energy efficiency and business. The economic wealth of a country depends not only on its research base but also on its ability to exploit the commercial potential of its intellectual property. This course provides vital training in each of the areas within the field of renewable energy and energy efficiency technologies. Students will gain technical skills in this field as well as becoming fluent in the financial, marketing and managerial aspects of modern business. It aims to develop confidence and understanding in the specialist field of entrepreneurship applied to technology that can arise from the research base of sustainable energy subjects. By the end of the course, you will have gained useful and technical knowledge in the areas of sustainable energy and business as well as the application of technologies to proposed business models, and you will be adept at communicating and presenting yourself and your projects to an audience. Graduates from the course will be well placed to pursue careers in renewable energy technology industries. Key facts As part of its remit, the Department of Architecture and Built Environment aims to develop your vocational skills and the environmentally responsible attitude necessary in today's rapidly changing world. The department enjoys strong collaborative links with overseas institutions. You may have the opportunity to attend conferences, seminars and training courses both in the UK and abroad. Nottingham University Business School is a leading centre for management education and its mission is to be a top ranked international business school, excellent in both teaching and research. Course details This course combines three elements: lectures in business and industrial skills (60 credits); lectures in leading-edge renewable energy technology (60 credits); and the application of these technologies to a proposed business model via a 60-credit summer project. The ‘Renewable Energy Technology Transfer Project’ will be completed during the summer period and will provide students with the opportunity to undertake independent research into a topic appropriate to renewable energy technology transfer and apply business knowledge and skills developed through the course, working closely with companies specialising in renewable energy technologies. The MSc Sustainable Energy and Entrepreneurship is offered on a full-time basis over one year (12 months). During the autumn and spring semesters, you will complete a total of 120 credits worth of modules taught within the Department of Architecture and Built Environment and Nottingham University Business School. Finally, you will complete a Renewable Energy Technology Transfer Project (worth 60 credits) during the summer period at the end of the course. Modules The business element comprises of six modules: Creative Problem Solving Finance and Accounting Innovation Management Project Management Marketing for Entrepreneurs Science Technology Arts and Business The technology element comprises three compulsory modules: Regulation and Management of Energy Supply and Use Renewable Energy Technology Research Methodologies You will then be able to choose three further optional modules from topics such as: Acoustics and Lighting Air Conditioning Technologies Advanced Topics of Heat Transfer Combined Heat and Power Systems Combustion and Pollution Control Cooling Technologies and Applications Energy Conversion and Utilisation Environmental Sustainability Hydrogen Economy and Technology Materials and Building Physics Career Prospects and Employability The acquisition of a masters degree demonstrates a high level of knowledge in a specific field. Whether you are using it to enhance your employability, as preparation for further academic research or as a means of vocational training, you may benefit from careers advice as to how you can use your new found skills to their full potential. Entry requirements 2.1 (Upper 2nd class hons degree or international equivalent) IELTS 6.5 (no less than 6.0 in any element) [-]

AGRIS MUNDUS - MSc in Sustainable Development in Agriculture

Faculty of Science at University of Copenhagen
Campus Full time September 2017 Denmark Copenhagen

As an MSc in Sustainable Development in Agriculture, you will work with all critical aspects of agriculturally related development activities, from soil fertility management to rural livelihood strategies in the developing countries. [+]

Master of Science (MSc) in Sustainable Development in Agriculture (Agris Mundus)As an MSc in Sustainable Development in Agriculture, you will work with all critical aspects of agriculturally related development activities, from soil fertility management to rural livelihood strategies in the developing countries.

The programme is offered in English.

During the two-year MSc programme, you focus on many different aspects of agricultural development, from the development of cropping systems and sustainable food systems to the increase of livestock prodution. The preservation of natural resources, especially land, water, forests and biodiversity is also a key element in the programme.... [-]


Master in Mechanical Engineering (M.S and M.E.)

Inter American University of Puerto Rico
Campus Full time August 2017 Puerto Rico Bayamón

The Department of Mechanical Engineering offers two modalities of master degrees: Master of Science (M.S.) in Mechanical Engineering and Master of Engineering (M.E.) in Mechanical Engineering. In each modality two specializations are offered: Aerospace and Energy. [+]

The Department of Mechanical Engineering offers two modalities of master degrees: Master of Science (M.S.) in Mechanical Engineering and Master of Engineering (M.E.) in Mechanical Engineering. In each modality two specializations are offered: Aerospace and Energy. These programs are designed to prepare students with the skills and attitudes necessary to perform as efficient professionals in the aerospace and energy specializations. The Energy specialization students are prepared in the study of fossil and renewable energies. In the Aerospace specialization; students are offered the knowledge necessary to perform successfully in the aerospace industry. [-]

MSc in Carbon Finance

University of Edinburgh Business School
Campus Full time September 2017 United Kingdom Edinburgh

Our MSc in Carbon Finance is the world's first programme dedicated to professionals in the field of low carbon finance and investment. Designed to develop your understanding of how the challenges of climate change are driving trillions of pounds of new investment in a huge range of sectors, including energy production, housing and infrastructure, the programme will also prepare you to deliver this investment with advanced knowledge and skills. [+]

Masters of Science in Energy. Our MSc in Carbon Finance is the world's first programme dedicated to professionals in the field of low carbon finance and investment. Designed to develop your understanding of how the challenges of climate change are driving trillions of pounds of new investment in a huge range of sectors, including energy production, housing and infrastructure, the programme will also prepare you to deliver this investment with advanced knowledge and skills. Programme overview Our programme will provide you with an understanding of climate change science and policy, their relationship to finance and investment, and the procedures and issues within the energy sector and carbon markets. It is dedicated to professionals in the field of low carbon finance and investment, focusing on the business opportunities and financial flows driven by society's response to climate change. The MSc is fundamentally interdisciplinary in nature, and therefore welcomes applicants from a wide range of backgrounds, including business, economics and science. Programme structure You will take four core courses in the first term (Sep-Dec) and three in the second term (Jan-May), including a group Carbon Consulting Project, which will foster vocational and teamwork skills. In the second term you will also have the opportunity to take one option course, to enable you to specialise in an area relevant to your future career path. The final dissertation is written over the summer term (Jun-Aug) and is overseen by an academic supervisor. Knowledge exchange The School hosts the Centre for Business and Climate Change, a leading international centre for business and climate change education, research and public engagement, which is renowned for its high level of corporate engagement and knowledge transfer. The Centre attracts a number of high-profile visiting speakers whose knowledge and expertise you will benefit from, including the Chief Executives of Solar Century and Composite Energy. Career opportunities The explosion of carbon finance and investment has created a range of new types of businesses and careers. Graduates from this programme will typically pursue a career in carbon trading, carbon consulting, SRI investment or asset management, carbon entrepreneurship, climate change policy, or carbon accounting. The programme is also excellent preparation if you wish to conduct further research at PhD level. Learning outcomes The challenge of responding and adapting to climate change will drive trillions of dollars of new investment over the coming decades, with major changes required across the economy, in energy production and consumption, industry, buildings, transport, infrastructure, forests and agriculture. Delivering this investment will require greatly enhanced capacity in all aspects of carbon finance. The programme aims to provide graduates with an understanding of: The current state of climate change science, greenhouse gas stabilization pathways and the principal mitigation and adaptation options. Climate change policy responses at international, regional, national and local levels and the various types of regulatory response available to governments. The relationship between climate change science, policy, carbon markets and other climate finance and investment. What carbon finance means and the relationship between carbon finance and conventional finance. Essentials of conventional finance and financing issues in the energy sector in particular. The structure and dynamics of the major global, regional and national-level carbon markets, including voluntary carbon markets and the flexibility mechanisms of the Kyoto Protocol and its successor agreement(s). Accounting for carbon at firm, project and product/supply chain level, carbon auditing, financial reporting and non-financial disclosure, benchmarking, taxation implications, and the ethics of carbon accounting. The use of statistics for financial research. An appreciation of the role that carbon finance plays in an organisation's strategy, finance and accounting decisions. Entry requirements Entrance to our MSc programmes is strongly competitive. You can increase your chances of a successful application by exceeding the minimum programme requirements. Academic requirements You will need a UK first-class or 2:1 honours degree in one of the subjects below, or an equivalent overseas qualification. Academic background An undergraduate degree in business, economics, engineering or a social or physical science is normally required. Supporting your application Relevant work experience is not required but may increase your chances of acceptance. Preference will be given to those with grades above the minimum requirements due to strong competition for places on this programme. Applications from current undergraduates Final year undergraduate students are welcome to apply, so long as your studies will be completed prior to the MSc programme commencement date. [-]

Master of Science Mechanical Engineering Modelling - Specialization in Thermal Engineering

Budapest University of Technology and Economics, Faculty of Mechanical Engineering
Campus Full time September 2017 Hungary Budapest

The Master of Science (M.Sc.) programs offered at The Budapest University of Technology and Economics (BME) are not restricted to those who received their B.Sc. diplomas in engineering at BME. These programs are open to all students who receive diplomas in mechanical engineering, mechatronics engineering or [+]

The Master of Science (M.Sc.) programs offered at The Budapest University of Technology and Economics (BME) are not restricted to those who received their B.Sc. diplomas in engineering at BME. These programs are open to all students who receive diplomas in mechanical engineering, mechatronics engineering or transportation engineering at any of the Hungarian or foreign institutions of higher education. The entrance requirements of the programs have been defined in a way which also allows someone having a B.Sc. in another engineering area, physics, mathematics or computer science to join the M.Sc. programs while fulfilling a few additional requirements. In the M.Sc. curriculum there are 30 credit points which are dedicated to the final project. This can be completed in two semesters (Final Project A and Final Project B). It is a prerequisite that at least 55 credit points as well as any “supplemental” subjects be completed prior to beginning the Final Project A. In order to begin the Final Project B, it is required that the student finish – excluding the elective subjects – 79 credit points worth of the M.Sc. subjects found in the curriculum. Students partaking in the M.Sc. program can take the final exams after finishing all the subjects required by the curriculum as well as acquiring the right to sit for the final exams, a certificate which has its own criteria. Diplomas are only received after the final exams have been successfully passed and the language exam requirements have been met. The language exam requirements are regulated by ordinance 15/2006.IV.3 OM, which states that the M.Sc. degree can only be received if the student has a B2 (formerly known as intermediate “C”) language exam or an equivalent high school diploma in any modern foreign language for which literature is available in the given area of study. Students who have not fulfilled the internship requirements of the given program of study in advance need to do so during the M.Sc. program. The internship needs to be at least six weeks long, as regulated in the curriculum of the given institution of higher education. Each student must take the subject “Industrial Practice” at the MSc level. Internship fulfilled in the course of the BSc formation is automatically acknowledged and the signature will be registered in Neptun before the examination period. Budapest University Of Technology And Economics was founded in 1782 under the name of Institutum Geometrico-Hydrotechnicum and has been the top higher education institution of Hungary. It also has well-established international reputation. The foundation of the effectiveness of the university is the devoted educational activities of our professors and the hard work and enthusiasm of our students. These values ensure the stability and continuity of education, scientific research and technological development at the institution. Students who feel talented and skilled may join various development projects already during their university years. When they continue their studies from the basic degree to the Masters qualifications we aim at fine-tuning their knowledge and skills so that it is ensured that they become excellent development and research engineers. Those who wish to proceed with their scientific studies may join PhD courses, which will provide sound basis and guiding framework to reach their professional targets. All these opportunities ensure that the University of Technology has become one of the leading research universities of Hungary and is well-known for its scientific results abroad. It is also important that young people joining our programmes should not only become excellent professionals but educated persons in the widest sense. At the university there are various opportunities for intellectual activities and professors tend to convey not only professional skills but also their attitudes, values and viewpoints that may enrich students’ perceptions. [-]

Master in Physics and Astronomy: Advanced Matter and Energy Physics

University of Amsterdam
Campus Full time 24  September 2017 Netherlands Amsterdam

The AMEP programme is organised into three study paths: emergent and energy materials, soft matter and atomic quantum physics. Mixing between... [+]

MSc in Physics - Advanced Matter & Energy Physics

Language of instruction: English

Starts in: September, february

The AMEP programme is organised into three study paths:

emergent and energy materials soft matter atomic quantum physics

Mixing between study paths is no problem at all. The programme director and other teaching and research staff are happy to act as advisors with regard to course choices.

Courses

The AMEP programme comprises the following obligatory courses:

Big Issues in Emergent Energy Materials (6 EC) Big Issues in Atomic Quantum Physics (3 EC) Big Issues in Soft Matter (3 EC) Statistical Physics and Condensed Matter Theory I (6 EC) or Statistical Mechanics of Soft Matter (6 EC) Academic English (3 EC) Academic Skills (6 EC in total) ... [-]

MSc in Global Energy Management (GEM)

University of Strathclyde Business School
Campus Full time Part time 12 - 24  August 2017 United Kingdom Glasgow + 1 more

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

Why this course? The MSc in Global Energy Management (GEM) is an intensive course aiming to produce future leaders in the energy sector. The global energy system is undergoing a process of rapid change including: escalating demand constraints on supplies increasing energy prices regulatory pressures to reduce carbon emissions changing demographics and patterns of energy use and supply Industries, economies and societies face complex challenges and uncertainties that could become more extreme in the future. Both government and industry need to be able to understand and adapt to this changing context. Through this course you’ll gain a rigorous analytical training and in-depth real-world knowledge of global energy systems. There’s also hands-on training in the management of energy-related issues. Your training will help to give you an unrivalled edge in the energy job market. This Masters degree is delivered by the Department of Economics. You’ll study Core classes are designed around the latest academic research on the issues facing energy managers today. You’ll also have the opportunity to pursue your own interests through a variety of optional courses. We run a series of interactive seminars called the Global Energy Forum. Leading international energy experts in business, government and other organisations provide you with practical insights and inside knowledge. There are also field trips, conferences and you will complete a summer project. Core classes Global Energy Issues, Industries & Markets Global Energy Technologies, Impacts & Implementation Global Energy Policy, Politics, Business Structures & Finance Global Energy Forum Energy Economics Microeconomics or Macroeconomics Elective classes You’ll be able to choose from many postgraduate classes offered in: The Strathclyde Business School The Faculty of Engineering The Faculty of Humanities & Social Sciences Facilities The Strathclyde Business School is situated in a modern building in heart of Glasgow’s city centre. It’s designed to meet the demands of both corporate clients and students. Our school is equipped with up-to-date computing and technology facilities, study areas and its own café. Accreditation The MSc in Global Energy Management is accredited by the Energy Institute, the professional body for the energy industry. It is the first Masters course to hold academic accreditation for the professional status of Chartered Energy Manager. The Strathclyde Business School is a triple accredited business school. It’s one of only a small percentage worldwide to hold this prestigious status, with full accreditation from the international bodies, AMBA, AACSB and EQUIS. Energy Master Exchange Programme (EMEP) Strathclyde Business School and Dauphine Université, Paris, have joined forces to bring future leading energy market professionals together by forming the Energy Master Exchange Programme (EMEP) Workshop. Further information will be given when you enter the programme. Entry requirements An upper-second class Honours degree, or overseas equivalent. Applications are also welcome from candidates with significant high calibre industry or government experience. For students whose first language is not English, get more information about the English language requirements for studying at Strathclyde. We advise you to register your interest early due to the restricted number of spaces available. Pre-Masters preparation course The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options. To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today. Careers Energy is the largest and most critical industry in the global economy today. Employers are seeking out skilled graduates to work in the energy industry and related fields. As a graduate in global energy management, you’ll be well placed to manage the complex challenges facing the global energy system in the 21st century. We’ve designed this course to maximise the opportunities for industry engagement. You’ll take part in industry events such as the Scottish Oil Club. While on the course you’ll become Learning Affiliates of the Energy Institute. You’re entitled to free Energy Institute membership. Membership includes: access to a wealth of energy related information significant discounts to attend conferences and seminars many opportunities to meet professionals across the energy sector [-]

Master of Science in Renewable Energy Systems (MSc)

TU Wien - Continuing Education Center
Campus Part time October 2017 Austria Vienna

The program is designed more and more cross-border in view of the growing markets in Central and Eastern Europe and the expected investments of enterprises in these countries. The international orientation of the program is reflected not only in... [+]

Masters of Science in Energy. Master of Science in Renewable Energy Systems (MSc) This Master Program is unique throughout Europe's postgraduate education landscape. It is the first cross-border course dealing with the future issues of alternative energy production. In the beginning, the focus of this program relied on contributions from Austria, Hungary and Slovakia. Meanwhile, the international orientation was enlarged. The program is designed more and more cross-border in view of the growing markets. The international orientation of the program is reflected not only in the curriculum, but also in the cross-border cooperation with universities and organizations of other countries in the scope of country modules. Tailor-made country modules are offered to gain in-depth knowledge on energy markets. Final Degree "Master of Science" (MSc) granted by the TU Wien Language of Instruction English Duration 4 semesters, part-time program, presented in modules Program Start October, 2017 Application Deadline June, 2017 Contents During the first academic year, basic knowledge is taught in order to achieve a uniform level of knowledge on renewable energy among the students. A systematic integration of theory, practice and case studies ensures that the knowledge acquired by the participants can be directly put into practice in their respective companies: Introduction on Renewable Energy Biomass, Biofuels and Biogas Solar Energy – Solar Heating and Photovoltaics Geothermal Energy, Wind Power, and Small Hydro Power Efficient Energy Use and Thermal Building Optimization General Legal and Economical Frameworks Integration of Renewable Energy Sources into the Energy System Management and Soft Skills Perspectives on the Use of Renewable Energy Master´s Thesis Target Group Individuals within companies, organisations, and authorities who are engaged in planning, operating or evaluation of renewable energy or who are involved in financing, promotion, legal licensing, operation of facilities for the use of renewable energy or environmental issues. Admission Requirements Admission requirements are: a Baccalaureate degree, Magister degree, or a diploma or equivalent in a relevant area of specialty (predominantly final degrees related to engineering, technology, natural science, economics or law) and a minimum of 2 years of professional experience. Persons holding an equivalent educational and professional qualification may also be admitted. Tuition Fee EUR 19,500 (excluding travel expenses and cost of room and board). [-]