Master Program in Energy in Europe

View all Masters Programs in Energy in Europe 2017

Energy

A Masters degree gives you the opportunity to either further your understanding of a particular question or take off in a completely different way using skills you have gained from your previous undergraduate degree.

Energy studies teach about how power demands are met. This may be through conventional means, or alternative energy sources such as wind and solar energy. Some programs might explore the development of new sources.

In all, there are over 4000 Higher Education Institutions in Europe offering a wide range of courses at Bachelor, Masters and Doctorate level. With more and more of these organizations offering English as the language of education for at least some of their degree programs, universities in Europe are now of higher quality than ever before. Universities in Europe offer a friendly welcome to foreign students and to give a course of knowledge that meets their profession needs in today’s global demand.

View all Master Programs in Energy in Europe 2017

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Executive Master of Management in Energy

BI Norwegian Business School
Online & Campus Combined Part time 18 months March 2017 Norway Oslo

A programme designed to give you a comprehensive understanding of key energy issues and improve your analytical and managerial skills. [+]

Masters in Energy in Europe 2017. A programme designed to develop your comprehensive understanding of key energy issues and improve your analytical and managerial skills. Empowering managers to recharge the energy industry Faster than ever before economic and political changes ripple through the energy business environment. Within this changing landscape, successful energy managers need a bird's eye view of the entire energy value chain. Leaders must understand the interests and constraints of multiple stakeholders – governments, partners, companies and contractors, capital markets, NGOs - as they navigate in the constantly evolving global energy map for both fossile fuels and for the renewables. The global focus of the industry reflects the structure of this programme. This is done by combining Norway’s world class management knowledge in energy governance and business in oil, gas and electricity sectors, with France’s leading energy technology knowledge. The Executive Master of Management in Energy has brought together the expertise of two leading institutions in the field of energy management. The collaborative effort between BI Norwegian Business School in Oslo/Stavanger and IFP School in Paris has given participants a global and strategic perspective on the energy industry. The programme is currently being redesigned to adapt to the changes in the energy markets. This means that the programme will be offered first in 2017. An alternative Energy programme offered at BI Norwegian Business School The Executive MBA Programme with specialization in energy, will be run as planned in 2016. Start up is 31st March. If you are interested in considering the programme, we will be pleased to give you more information and answer your questions. Do not hesitate to contact us at: energy@bi.no. [-]

Master Biomass and Waste for Energy and Materials (BiWEM)

Ecole Des Mines D’Albi-Carmaux | EMAC
Campus Full time 2 years September 2017 France Albi

The objectives of BiWEM are to provide students with a sound theoretical and practical specialised knowledge in the field of biomass and waste processing. Students in the program will acquire the ability to design economically viable biological or thermochemical processes for the conversion of biomass and waste into new materials or energy carriers, within a sustainable development frame. [+]

ACCREDITATION Master accredited by the French Ministry of Higher Education and Research. Opening in September 2016. KEY WORDS Renewable feedstocks, eco-technology, processing, design, assessment, environmental burdens, green business, social responsability SCHOOL PROPOSING THE MASTER Mines Albi, in co-accreditation with Institut Mines Telecom, Paris, France LANGUAGE OF TEACHING English INCENTIVE Given the current context of natural resource depletion, environmental and public health crises related to air and water pollution, pressures on energy supplies, we are facing a paradigm shift. The linear model “take, make, consume and dispose” is progressively being replaced by a 4R approach “repair, refurbish, reuse and recycle”. The circular economy is becoming day after day a new development strategy for nations. Better eco-design, waste prevention and reuse bring significant net savings for businesses, while also reducing environmental harm and bringing new job opportunities. Turning biomass and waste into a valuable resource is at the heart of this strategy. Generating new materials, processes and markets requires global high-level training, including science, technology, regulatory knowledge, management and economics. All these innovative systems will emerge at the crossroads of process engineering, chemistry, fluid mechanics, thermal science, environmental sciences and economics as well as social sciences and humanities. BiWEM was created to satisfy the growing needs of this dynamic sector. COURSE AIMS The objectives of BiWEM are to provide students with a sound theoretical and practical specialised knowledge in the field of biomass and waste processing. Students in the program will acquire the ability to design economically viable biological or thermochemical processes for the conversion of biomass and waste into new materials or energy carriers, within a sustainable development frame. Consequently, BiWEM focus on chemical engineering but also includes courses on economics, international regulations and on certain areas of the social sciences and humanities. PROGRAM This is a full-time program of 2 years divided into four semesters: lectures, tutorials and practical work over the 3 academic semesters followed by an internship of one semester in a company or in a public research lab. The program is composed of four teaching blocks, including an integrated team project over the three academic semesters under the supervision of expert practitioners. Overall, 25% of the classes are devoted to practice. 1. Environmental and social economic issues (25 ECTS) Ethics, management and economics of the environment Corporate social responsibility Ecotechnologies and innovation Global environmental business 2. Fundamental science and generic engineering tools (21 ECTS) Fundamentals of transport phenomena, applied chemistry, biochemistry, metabolic pathways Generic numerical and experimental methods for process optimization and engineering Process modeling, integration and assessment 3. Fundamentals for renewable resource conversion (22 ECTS) Resource availability, collection and sustainability Biomass and waste pre-processing Fundamentals of biological and thermochemical reactor design Gas and solid coproducts post-processing 4. Putting theoretical concepts into practice (22 ECTS) Industrial visits Industrially-relevant project work, sponsored by industrial partners: Environmental-friendly design of an economically viable processing route for turning waste or biomass into energy, chemical or useful material. CALENDAR One intake per year (mid-September). - Year 1: Two academic semesters at Mines Albi. - Year 2: One academic semester at Mines Albi + a 6-month MSc thesis, in France or abroad. LOCATION The 3 academic semesters will be held on the Mines Albi campus. Albi is located 70 km from Toulouse, the capital city of the French southwestern Midi Pyrénées Region, which is ranked among the 12 most dynamic European Regions. The city of Albi is part of the UNESCO’s World Heritage. ADMISSIONS REQUIREMENTS Participants must hold a Bachelor of Science or Engineering degree. The program is a complete education in chemical engineering therefore admissions are open to candidates from various fields of study (preferentially Chem Eng but also Mech Eng, Civil Eng, Clean Tech...) with little or no professional experience. Participants with some industrial experience are also welcome. LANGUAGE REQUIREMENTS English Mother tongue or Bachelor degree taught in English or English language qualification such as TOEFL IBT 80, IELTS 6.0, TOEIC 750, Cambridge CAE. French No prerequisite in French, but TEF II or equivalent may be required to obtain a visa. APPLYING All applications should be made on-line: www.mines-albi.fr/admission-process-master-science. Applications are open from January to July each year. HIGHLIGHTS Program boosted by the research department RAPSODEE CNRS UMR 5302 having an outstanding international recognition. This centre has been granted by the French government as a research centre of excellence in Science for Energy Conversion (under Labex and Equipex funding schemes). This label is given to only 10% of research labs in France. RAPSODEE has also developed and hosts the Springer peer-reviewed journal “Waste and Biomass Valorization” and the WasteEng Conferences Series. Strong interaction with industry through conferences, practices and visits. RAPSODEE works closely with more than 50 companies (€ 2 Million income in corporate research/year), including world leaders in the field of Energy and Environment. Good grounding in a core set of engineering competencies. In-depth knowledge of the key cross-cutting methods associated with process design and integration. Access to impressive and up-to-date on-site pilot-scale facilities. Opportunity to undertake an industrially-relevant project, sponsored by companies, and to develop a sense of decision-making in the field of Waste and Biomass Valorization to face tomorrow’s challenges. 6-month MSc thesis in industry or in a public research lab. Opportunity to build up a well-established international network of contacts. Master taught entirely in English and in small group. Free French language courses. A quality charter to welcome international students to the Mines Albi international campus. SKILLS ACQUIRED Ability to use experimental and numerical methods for process conceptual and detailed design, optimisation and assessment. Ability to think green, preferably with a circular economy mind-set. Ability to understand, analyse and manage complex systems. Ability to recommend strategies to meet business and ecological goals. Ability to undertake socially responsible innovative industrial projects. Ability to work well with others, across culture and disciplines. Ability to present convincingly and argue a case in front of an audience, write reports, publications and short communications. TYPICAL JOBS R&D Engineer Junior Project Engineer Process Engineer Design Engineer Exploitation engineer Environmental consultant [-]

Master in Renewable, Thermal and Power Engineering

National Research University
Campus Full time 2 years September 2017 Russia Moscow

National Research University “Moscow Power Engineering Institute” provides Master Degree in Renewable, Thermal and Power Engineering according to Russian State Educational Standard [+]

Masters in Energy in Europe 2017. National Research University “Moscow Power Engineering Institute” provides Master Degree in Renewable, Thermal and Power Engineering according to Russian State Educational Standard in the following directions: - Electric Power Engineering and Electrical Engineering - Thermal Power Engineering and Heat Engineering - Nuclear Power Engineering and Thermophysics - Power Engineering Machinery - Mechatronics and Robotics - Applied Mechanics WHY SHOULD YOU CHOOSE MPEI MPEI students have a chance to study at one of the most prestigious universities of Russia according to numerous rankings and surveys. For more than eighty years of history MPEI have trained a huge number of the qualified engineers, prominent scientists who were standing at the origins of many technical achievements, in particular, of laser creation. At MPEI the Nobel Prize winners A.D. Sakharov and P.A. Cherenkov worked in different periods. In the 20th century in the Special Design Bureau of MPEI, which possesses its own Center of Deep Space Communication, radio images of the Venus surface and a reverse side of the Moon were obtained for the first time. Among the most famous graduates of MPEI there are the ex-Chairman of the State Council of China Li Peng and the ex-President of Romania Ion Iliescu, Ministers of Engineering and heads of the engineering companies of many countries of the world. MPEI partners in science and education include about 140 foreign universities, and such well-known companies like ABB, Siemens, Schneider Electric, EPRI, Skoda, Samsung and others. Getting the unique training in any chosen field, MPEI graduates never have problems with subsequent employment and realize themselves in any chosen spheres. LANGUAGE OF EDUCATION Training is organized in Russian language. Those students who need to learn Russian are invited to MPEI Preliminary course which provides training of Russian language during 1 academic year. ACCOMMODATION CONDITIONS MPEI foreign students are provided with accommodation in MPEI hostel. The hostel under security surveillance has two-room blocks with a bathroom and a toilet in each block. Rooms are for two or three persons. There are also hostels of corridor type with double rooms. Rooms are equipped with furniture, bed linen is also included. On each floor of a hostel there is a common kitchen and a restroom. Internet connection can be provided for additional fee. In MPEI campus there are additional services like laundry, shops, repair offices, post-office, cultural centers, cafes and restaurants, etc. Accommodation fee is about 100 USD per month. INSURANCE All foreign students must have medical insurance for the whole period of education. MPEI works with insurance company which provides the most comprehensive insurance at a rate of 200 USD per year. [-]

ME Electrical Energy Engineering

UCD College of Engineering and Architecture
Campus Full time 2 years September 2017 Ireland Dublin

The ME Electrical Energy Engineering programme is taught by world-renowned academics from the ERC. The professionally accredited programme addresses the challenge of transitioning towards sustainable power systems, integrating diverse generation and demand-side technologies while maintaining stable and economic operation. [+]

ME Electrical Energy Engineering Graduate Taught (level 9 nfq, credits 120) The ME Electrical Energy Engineering programme is taught by world-renowned academics from the ERC. The professionally accredited programme addresses the challenge of transitioning towards sustainable power systems, integrating diverse generation and demand-side technologies while maintaining stable and economic operation. It provides strong training in various aspects of electrical engineering and enhances this through a major research project and professional work experience. A wide range of core and optional modules delivered by engineers with international reputations, including academic staff from the world-leading Electricity Research Centre in grid integration of renewables. Delivered by a highly research active school holding a position of 101-150 in the QS World Subject Rankings. This programme will provide you with a strong educational foundation in power systems and power electronics analysis & design, renewable energy sources and smart grid applications. This programme will provide you with an engineering qualification fully compliant with the Masters level accreditation requirements of Engineers Ireland. Who should apply? Full Time option suitable for: Domestic(EEA) applicants: Yes International (Non EEA) applicants currently residing outside of the EEA Region. Yes The ME programme is targeted at mathematically strong engineering students who are interested in power systems analysis and renewables integration, and who are seeking a professional career in the power system and smart grid sectors. Course Description The 2 year programme comprises subject areas relating to power system analysis & design, power electronics applications & design, sustainable power systems, smart grid communication architectures and electricity market operations, in addition to a major research project and a professional work experience opportunity. Career Opportunities By completing the ME Electrical Engineering programme, you will become a graduate with power systems expertise, whose rare skills will be attractive to a wide variety of technical and managerial roles in the electrical utility and smart grid sectors on an international scale, e.g. Alstom, ABB, EPRI, EirGrid, ESB, GE, Siemens. The ME programme also provides an excellent starting point for those aiming for a PhD programme and a research career within a university or specialised research institution. Fees, Funding and Scholarships ME Electrical Energy Engineering (T274) Full Time EU Year 1 - € 7490 EU Year 2** - € 7490 nonEU Year 1 - € 23800 ***Fees are subject to change Tuition fee information is available on the UCD Fees website. Please note that UCD offers a number of graduate scholarships for full-time, self-funding international students, holding an offer of a place on a UCD graduate degree programme. For further information please see International Scholarships. Student Internships The Professional Work Experience (PWE) module is incorporated into the two-year Masters of Engineering Programme and is designed to integrate a student’s academic and career interests with paid practical work experience for a 6-8 month period. The module provides students with the perfect opportunity to gain increased experience and understanding of their chosen field, assess where their strengths and weaknesses lie and maximise their knowledge of the available career possibilities. The practical skills acquired during this placement will give graduates a competitive advantage when applying for positions upon graduation. Entry Requirements A 4-year bachelors degree with a minimum upper second class honours (NFQ level 8) or international equivalence in a relevant Engineering programme. Applicants whose first language is not English must also demonstrate English language proficiency of IELTS 6.5 (no band less than 6.0 in each element), or equivalent. Testimonial Graduate Profile Ruth Galvin, ESB International Having completed my Bachelor of Engineering Science in UCD, the Electrical Energy Engineering Masters in UCD offered a natural progression to deepen my knowledge and skills for the Electrical Energy and Power Systems sector. For me, the Masters program struck the perfect balance between taught modules, self directed research, and an internship program. Within the two year course I got the opportunity to undertake a six month Internship with Arup Consulting Engineers in Dublin, which provided invaluable work place experience and facilitated networking in the industry. The thesis is both a challenging and rewarding aspect of the program and provided me with the scope to tackle a very topical issue in the Power Electronics field, and work with members of the ERC. Having access to the Opal RT Real Time Digital Simulator in the ERC was a real plus when it came to testing my project design. The Masters program provided a platform for a choice of graduate positions for 2015 graduates. *Courses will remain open until such time as all places have been filled, therefore early application is advised [-]

Master of Science in Energy and Environment

Vytautas Magnus University
Campus Full time 3 semesters September 2017 Lithuania Kaunas

Applicants for Energy and Environment programme should have a Bachelor or equivalent degree in Physics, any Engineering discipline, Chemistry, Geology, Geography, Energy Technologies, Mathematics [+]

Masters in Energy in Europe 2017. Access Requirements Applicants for Energy and Environment programme should have a Bachelor or equivalent degree in Physics, any Engineering discipline, Chemistry, Geology, Geography, Energy Technologies, Mathematics, Computer Science, Informatics, Teacher of Physics and proven capability to fluently speak, read and write in English. Competencies Acquired Graduates will be able: - To analyze the environmental effects of energy sources; - To provide consultations for governmental and non-governmental energy enterprises; - To prepare plans for the development of energy sector including new energy sources; - To apply hydrogen energy sources for energy production; - To apply the latest innovations in the area of new energy sources; - To analyze energy economy taking into account environmental effects; - To assess the laws governing energy transformations in energy sources. Career Opportunities Graduates can work at the: - Companies related to energy generation and distribution; small enterprises involved in development of new alternative energy sources and theirs applications. - Research organizations on the research and development of new energy sources; governmental organizations responsible on the development of the national energy program. - Environmental organizations which involved in the studies of energy affects on the environment. [-]

Master in Energy Engineering

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

This program introduces students to energy policy and presents it as one of the pillars of electricity and heat production in the Czech Republic. Students gain practical experience by contributing to the improvement of the cooperation of the Department and Faculty with various institutions and workplaces in the Czech Republic and abroad aimed at achieving a high level of expertise on the latest research equipment. [+]

Faculty of Mechanical Engineering Study Branch Energy Engineering Branch Profile Branch covers a wide range of energy issues. It introduces students to energy policy and presents it as one of the pillars of electricity and heat production in the Czech Republic. Graduates will be able to assess the choice of technology used in new energy sources according to criteria for maximum energy efficiency and minimum emissions. Students gain practical experience by contributing to the improvement of the cooperation of the Department and Faculty with various institutions and workplaces in the Czech Republic and abroad aimed at achieving a high level of expertise on the latest research equipment. All students deepen their knowledge of the theory of fluid mechanics, heat transfer and mass transfer and combustion, and study further on the construction and operation of the basic units of power equipment such as boilers, turbines, compressors, power stations, internal combustion engines and acquires of water management in energy, air and traffic control, diagnostics and maintenance in power. Students choose from one of the four specializations. For "Thermal power equipment and industrial power" possibilities include heat, nuclear power plants or the use of secondary sources of energy. For the specialization "Alternative energy and environmental technology" possibilities include ventilation and air conditioning, alternative and renewable energy sources and energy use of biomass and waste. The third specialization “Construction of steam boilers and heating equipment”, prepares specialists in the field of thermal calculations, design and construction of steam boilers, and is characterized by subjects: a steam boiler II, materials and strength design of boiler parts and design methodology in the field. Fourth specialization “Nuclear power equipment” prepares specialists in thermal and hydraulic calculations, design and construction of nuclear power plant components and is characterized by subjects: chemistry in nuclear energetic, nuclear power equipment, manufacturing technology of nuclear components, nuclear power machinery and applied mechanics in nuclear energetic. Graduates get good jobs, and practical application, whether it is focused on the design, operation and management. Key Learning Outcomes - Knowledge The objective of this study branch is the education of an engineer prepared for design, operation or managing work in power engineering and Energy Technology and in connected branches. In the basic, mandatory study programme, a student deepens his/her knowledge in the theory of fluid mechanics, the transfer of heat and mass and combustion and is thoroughly acquainted with the design and operation of basic units in the energy branches such as boilers, turbines, compressors, power units, combustion engines and obtains knowledge from the areas of water management in power engineering, air protection and operation, regulation, diagnostics and maintenance in power engineering. - Skills Students choose one of three possible specializations, and from options within each. For the specialization “Thermal Energetic Equipment and Industrial Power Engineering”, he/she can select for example, the gas industry, the heating industry, nuclear power equipment or the use of secondary energy sources. For the specialization “Alternative Energy and Environmental Technology” subjects include ventilation and air conditioning, alternative and renewable sources of energy or the energetic use of biomass and waste. The third specialization “The Construction of Stream Boilers and Thermal Equipment”, as a preparation of specialists in the areas of thermal calculations, with the design and construction of steam boilers, is characterized by the subjects, for example: steam boilers II, the materials and strength dimensions of boiler parts or construction methods. - General competencies: Graduates of this branch can easily find employment and well apply themselves in practice, whether it be oriented on design, operation or management. Specializations include: Thermal Power Equipment and Industrial Power Engineering, Alternative Energy and Environmental Technology, the Construction of Steam Boilers and Thermal Equipment. Occupational Profiles of Graduates Energy and Energy is part of almost all human activities. Graduates may work in energy companies, project organizations, and so on. Students during their study will be familiar with the production of heat and electricity, resource-efficient materials, incl. biomass and waste, will be able to identify sources of pollution, use diagnostic energy processes, handle design of combustion devices able to use both fossil and renewable energy sources. Admission Requirements Determined by Dean, may include entrance examination, other formal documents. Graduation requirement 120 ECTS Credits, Final state examination, Diploma thesis Course Structure Diagram with ECTS Credits 30 ECTS credits per semester. [-]

Master in Energy Informatics

University of Applied Sciences Upper Austria
Campus Full time 4 semesters October 2017 Austria Hagenberg

Energy is the underlying heartbeat of the global economy – a critical factor in the production of nearly all goods and services in the modern world. Clearly, given the critical role of energy, the driving imperatives in any economy are ensuring security of supply, maintaining competitiveness and overseeing the transition to a low-carbon future... [+]

Masters in Energy in Europe 2017. Master in Energy Informatics Energy is the underlying heartbeat of the global economy – a critical factor in the production of nearly all goods and services in the modern world. Clearly, given the critical role of energy, the driving imperatives in any economy are ensuring security of supply, maintaining competitiveness and overseeing the transition to a low-carbon future. Key requirements in this respect are the strategic management of supply and improving its overall generation and distribution. Impacting on these challenging goals will be a variety of factors, including advances in renewables, e-mobility and green technologies, to name only a few. Managing this changing environment is no easy task. That will require intelligent IT solutions and therefore well-educated IT experts able to design and/or operate future smart grids, smart city infrastructures and enhanced energy supply systems. Energy Informatics (ENI) is the application of information technologies to this highly demanding field. Information Degree: Master of Science in Engineering (MSc) Duration: 4 semesters (120 ECTS) Annual intake: 20 Mode of study: full-time Admission requirements: Completed Master’s or Bachelor’s degree with IT strand worth a minimum of 60 ECTS points, or a similar qualification. Sound knowledge of English. Language of tuition: English Fees: No tuition fees Focus of studies This Master’s degree programme Energy Informatics (ENI) provides technical, business and legal expertise for the development of future energy systems, especially in the areas of: International Energy Makets and Energy Law Processes and Process Modelling International Project Management Systems Engineering Energy generation, distribution and storage (renewable energy, energy storage, charging stations, buildings, lighting, etc.) Field Components (meters, load control, gateways ...) Software Systems (SCADA, Meter Data Management (MDM), Head End Systems (HES), Device Data Management (DDM), Energy Data Management (EDM), Geographic Information Systems (GIS) etc.) Cloud Computing, Big Data IT Security Communication Technology (Radio Frequency / Powerline) Home and Building Automation Electromobility Additional interdisciplinary elective courses and seminars are also available; they vary from semester to semester. Curriculum The curriculum of the Master's degree programme Energy Informatics (ENI) is structured in a way that allows for giving a comprehensive overview on almost all of the relevant aspects in the smart energy domain. Furthermore, it allows for individual specialization by identifying specific topics the student is interested in. Technical competences like smart grid field components and home and building automation as well as interdisciplinary competences like process modelling and international energy markets and energy laws are provided by the highly forward-looking master's degree programme. In addtition students of the Master's degree programme Energy Informatics can also attend courses being offered by other Master's degree programmes. The interest areas have to be chosen in the context of the project and research topics being defined together with the academic advisor that has been assigned to the student. Practice-oriented Degree Programme As a University of Applied Sciences, we cooperate closely with the local industry and companies within the region, as well as with various international ones. These connections enable you to develop highly sought-after skills, as you will gain practical, hands-on experience which ultimately increases your level of employability. Further interdisciplinary and applied research projects will allow you to strengthen relationships with the local industry and international companies throughout your studies. Career profile The Energy & Climate Package and the Energy Efficiency Directives released by the European Commission in 2007 and 2012, respectively, clearly state that the main tools for building a progressively lower carbon economy are energy efficiency, investment in renewables and new technologies, as well as better interconnectivity between energy markets. These strategic goals will all require a large pool of IT expertise. In-depth technical knowledge in Energy Informatics equips our students with the proactive qualities that underpin leadership/management positions, and can lead to high-flying careers. Energy Informatics graduates will not only work at energy suppliers and network operators, but also in associated sectors. Even energy-intensive industries such as the automotive industry and metal processing companies can benefit from their expertise. Other fields include the conception, planning and implementation of IT systems for smart grids, smart cities, e-mobility and industrial plants. You will be working in a highly dynamic field with excellent career prospects. [-]

MASTER ENERGY & SOLAR BUILDINGS

Université Savoie Mont Blanc
Campus Full time 2 years September 2017 France Chambéry-le-Vieux

The Master in energy & solar buildings trains scientists capable of solving complex problems relating to the management, design and optimization of multiple-input technological systems and develops the expertise and skills needed to carry out research into energy management, environmental protection, the use of innovative materials and the production of innovative structures as part of a global policy of sustainable development. [+]

Objectives Train scientists capable of solving complex problems relating to the management, design and optimization of multiple-input technological systems. Develop the expertise and skills needed to carry out research into energy management, environmental protection, the use of innovative materials and the production of innovative structures as part of a global policy of sustainable development. Skills and expertise Design and implement complex technological systems that are self-regulating (or autonomous) and that protect the environment through improved energy efficiency and the use of specific methods, processes and materials. Expertise in associated tools (modeling, simulation, measurement, information management). Multi-disciplinary Master's degree Course The course program is closely linked to the research carried out by Polytech’s three research laboratories: Intelligent Systems (LISTIC), Energy and Sustainable Buildings (LOCIE), and Mechatronics (SYMME). Year 1 Fall Semester UE1–Mathematics: Numerical methods, Data analysis and reliability of numerical models UE2-Building Science and Technology: Heat transfer in buildings, HVAC, Combustion UE3-Experimentation (buildings and systems): Bibliographic research: Experimental characterization (full-scale platforms of INES), Thematic bibliographic work (Self-study) Spring Semester UE1–Energy: Power engineering (thermodynamics and advanced heat transfers), Fluid engineering applied to energy (hydraulic, wind turbines, and marine) UE2–Systems: Control for building applications, Innovative energy systems (Fuel cell, CHP) UE3–Project: Group research project Year 2 Fall Semester UE1-Solar Energy, Storage and Networks: Solar thermal, Solar photovoltaic, Energy storage and networks (district heating, smart grids) UE2-Smart systems and experimental methods: Representation and optimization tools (genetic algorithms, neural networks...), Measurements (flow, temperature, pressure ...) and experimental methods (database ...) UE3-Modeling, optimization and control: Advanced building modeling (heat and mass transfer), Numerical tools (CFD, systems, optimization) Spring Semester UE1 - Integration in a research laboratory : Research project Admission Apply to do a Master’s in REIS. Submission of application forms and notification of admissions results. You can download the instructions Deadline for submitting applications: Please contact us Our business and research partners include Energy and Solar Buildings: TENERRDIS business cluster, Clipsol, Tecnisun, Photowatt, Tenesol, Imeris, Asder, Greth, Hespul, etc. Mechatronics: Arve Industries business cluster in Haute Savoie, Alcatel, Somfy, Snr, Mécalac, Anthogyr, Bosch, etc. Information processing: Alcatel, FranceTélécom, Schneider Electric, Total, etc. [-]

Master in Public Procurement Management for Sustainable Development

Turin School of Development
Online & Campus Combined Full time 1 year October 2017 Italy Turin

Our Master’s programme explores the legislative, regulatory, organisational and managerial foundations of a modern Public Procurement System. [+]

Masters in Energy in Europe 2017. The International Training Centre of the International Labour Organization (ITCILO) in partnership with the University of Turin (Faculties of Law and Economics) and UNCITRAL (UN Commission on International Trade Law) offers this Master in Public Procurement Management for Sustainable Development that explores the legislative, regulatory, organisational and managerial foundations of a modern Public Procurement System. The  programme is a unique, blended learning opportunity: it combines the study of policy tools and theory prescriptions with applied assignments and research work. It provides you with direct access to expertise from academia, international organisations and think tanks, as well as the latest literature and cutting-edge research. This will prepare you for a range of highly developed functions connected with public procurement management and supervision. The programme The unique learning path offered by this programme through a succession of distance learning, face-to-face tuition and applied research ensures an optimal transfer of competences while minimising disruption of your job. Part I - Distance Learning      ... [-]

Master in Ecotechnology & Sustainable Development

Mid Sweden University
Campus Full time 2 years September 2017 Sweden Östersund

The programme give you skills to tackle questions about environment and development. [+]

Education for future jobs relevant to tackle questions about environment and development! New possibilities open up with skills from the International Master’s Programme in Ecotechnology and Sustainable Development. The programme provides you with a deeper knowledge about natural resource management from a systemic perspective. Focus is on moving society towards a sustainable development. In order to be successful when working with sustainable development, you must possess adequate knowledge and skills. The International Master’s Programme in Ecotechnology and Sustainable Development will provide you with knowledge related to environmental and natural resource questions from a sustainability point of view and from global, regional and local levels. These broad issues, which vary in relation to time, place, complexity and connectedness, are approached in an interdisciplinary and systemic way. The programme includes courses in both Environmental Science and Environmental Technology. Environmental Science focuses on knowledge about how natural resources and the environment form preconditions to create sustainable societal functions. Environmental Technology, on the other hand, focuses on the technology and technical systems from a sustainability perspective. This programme aims to develop your analytical and systemic thinking and thus to provide you with the ability to tackle complex problems. It will also provide you with an understanding of efficient natural resource usage. It also considers how knowledge referring to different systems and innovations, together with knowledge about societal control systems, can contribute towards sustainable development. You will learn how to handle advanced methodologies to identify and describe problems in order to arrive at reasonable solutions. Your multi-disciplinary ability will furthermore develop due to the design of the programme, which includes, for example, multidisciplinary thematic assignments. Within these projects you will be able to sharpen your ability to search for, analyse and use knowledge under qualified supervision. The programme aims to provide you with an insight into modern research and development within the field. ... [-]

Engineering Degree - taught in FRENCH

ECAM Lyon
Campus Full time 1 - 3 years September 2017 France Lyon

This program is taught in FRENCH. ECAM Lyon provides a multi-disciplinary Engineering programme which combines broad training in science and inter-personal skills. [+]

Masters in Energy in Europe 2017. This program is taught in FRENCH Read the official French description and apply here: ECAM Lyon : Diplôme d'Ingénieur Généraliste [-]

Masters in Development Practice

Trinity College Dublin
Campus Part time 2 years September 2017 Ireland Dublin

The two-year Masters in Development Practice encompasses an integrated theoretical and practical approach with multidisciplinary training in four “pillars”- health, natural, social, and management sciences. Eighteen core academic modules (link) provide rigorous training across the core pillars, complemented by masters level training in research design, methodology, and methods including training in leading edge quantitative... [+]

Masters in Development Practice Established in 2009 following recommendations from the International Commission on Education for Sustainable Development Practice, the Global Masters in Development Practice (MDP) is a world-leading and uniquely innovative interdisciplinary graduate degree programme that blends health, natural, social, and management sciences--combined with cross-sectoral field training and professional local and international work-based placements to better understand international development problems and best practices. The Dublin MDP is a member of this global network of Master’s in Development Practice, headquartered at Columbia University, New York, linking with over 30 universities and hundreds of partner organisations worldwide. The two-year Masters in Development Practice encompasses an integrated theoretical and practical approach with multidisciplinary training in four “pillars”- health, natural, social, and management sciences. Eighteen core academic modules (link) provide rigorous training across the core pillars, complemented by masters level training in research design, methodology, and methods including training in leading edge quantitative, qualitative, and digital tools and techniques. The programme includes four work-based placements (link) which provide hands-on practical experience for students, both in International Development NGOs and International Intergovernmental Organisations. This programme aims to create a new generation of development practitioners with the skills to implement and manage comprehensive approaches to sustainable and efficient development. The Dublin MDP is a joint degree led by the Trinity College Dublin (TCD) School of Natural Science and University College Dublin (UCD) School of Politics and International Relations, and delivered by staff from all faculties across the universities, in collaboration with leading scientific researchers, and national and international organisations with specialist skills. Course Modules The Dublin MDP it combines a range of teaching and learning approaches both in the seminar room and in the field. Students engage in a minimum of eighteen class-room based modules and four work-based placements to gain hands-on practical experience during the programme. Specialist skills are formed across a range of areas including research design and methods, development economics, global health, gender, climate change and climate justice, governance and politics and language training. Students engage with leading experts, practitioners, and academics both in the classroom and in the field. Students also produce a dissertation drawing upon research conducted during fieldwork modules. These have attracted attention from policy-makers, such as the Minister of Education in Rwanda. Year 1 Modules: Tropical Agriculture (Natural Sciences Pillar) Climate Justice, Human rights, & Development (Social Sciences) Economic Policy & Analysis I (Social Sciences) Economic Policy & Analysis II (Social Sciences) Irish NGO Placement (Management) Fieldwork 1 (Management) Global Health (Health Sciences) Global Classroom (Cross-Disciplinary) Research Design & Methods (Cross-Disciplinary) Year 2 Modules: Climate Change & Development (Natural Sciences Pillar) Science, Technology & Development (Natural Sciences Pillar) Globalization & African Development (Social Sciences) Governance, Politics & Development (Social Sciences) Post-Conflict Situations (Social Sciences) Gender & Development (Social Sciences) The UN Architecture: The MDGs & Beyond (Social Sciences) Impact Measurement in Development Aid (Cross-Disciplinary) Fieldwork 2 (Management) MDP Dissertation Entry Requirements, Applications and Closing Date Entry to the program will be based on competitive selection. Applications for admission are accepted from holders of first or upper-second class honors degrees (grade point average 3.5 equivalent) awarded by recognised universities and institutions, and recognised degree awarding bodies (e.g. NCEA, CNAA); holders of other degrees from recognised universities or degree granting institutions who have experienced at least three years of appropriate employment; holders of recognised professional qualifications obtained through examinations who have spent at least four years in study and who, in addition, have been employed for at least two years in the work of their profession; Applicants whose first language is not English must submit evidence of competency in English in a test administered by an institution independent of their own university (e.g. the British Council). [-]

Master in Sustainable Energy Engineering

KTH Royal Institute of Technology
Campus Full time September 2017 Sweden Stockholm

Theaim of Sustainable Energy Engineering (SEE) programme provides state-of-the-art education in the fields of solar energy, power generation and energy utilisation in the built environment. The [+]

Master in Sustainable Energy EngineeringTheaim of Sustainable Energy Engineering (SEE) programme provides state-of-the-art education in the fields of solar energy, power generation and energy utilisation in the built environment. The emphasis is placed on dealing with energy engineering tasks with due consideration of technical, environmental and socio-economic issues.Programme outlineThe curricula for the three specialisations – Sustainable Power Generation, Sustainable Energy Utilisation in the Built Environment and Solar Energy – are marked by an intensive introductory period followed by broad-based coursework giving participants a solid foundation for the particular study track. Advanced methods are applied to identify, describe, quantify and find solutions to a diverse range of energy engineering problems.Students gain proficiency in project design and implementation, operation and maintenance, as well as in crucial phases of policy generation. The programme also offers substantial coursework within a research environment.Degree projectEach student conducts a degree project on which he/she typically works over a period of six months. The project may be carried out in either an academic environment (university, research institute, or equivalent) or in an industrial setting (power plant, energy consulting agency, or other industry/business). This provides the student with an excellent platform in which to establish valuable experience and the contacts necessary for future career objectives.Thesis projects conducted within the SEE Programme are often intimately linked to ongoing research activities at the Department of Energy Technology or collaborating groups at KTH. Career prospectsThe energy field is an international and dynamic area where well-trained engineers are in consatnt demand. Graduates find employment in industry, government agencies, and consultancies.The SEE Programme is also an excellent starting point for a research career.... [-]


Specialized Master's In Management And Marketing Of Energy

Grenoble Ecole de Management
Campus Part time 15 months September 2019 France Grenoble

To evolve in relation to sustainable development and the need for experts in energy, specialized masters familiarizes students with specific constraints and challenges in the energy sector. A high-level program that trains specialists of tomorrow through a cross and transdisciplinary approach. [+]

Objective: This label is awarded jointly by Grenoble Ecole de Management and Grenoble INP. Sustainability is now inevitable, especially in the energy sector, and thus increases the demand for experts in the field. To meet this demand Grenoble Ecole de Management form of high-level managers specializing in energy and its various issues. Program: This course provides an overview of the energy market both from the point of view of the supplier of the customer, taking into account the importance of new technologies and energy efficiency services. The program is divided into 3 phases gradually integrating the student into the business. It is delivered in conjunction with Grenoble INP and in partnership with LIG Grenoble. Examples of courses: - Economics and Strategy energy - Climate and DD - Finance Energy - Energy networks - Dynamic Marketing and Strategic - Management of People and projects to strengthen operational learning, students work on an innovation project and the achievement of a professional thesis. What job can I do with this training? The Specialized Master in Management and Marketing Energy leads to many opportunities such as charge d'affaires engineer energy efficiency, energy buyer, or facilities manager. How to integrate this training? The admission application online is open: - For graduates holding a tray 5 (engineers, academics, business school) - For professionals work or job search, holding a tray 4 with experience of at least 3 years [-]

Master's in Energy, Natural Resources and the Environment

NHH Norwegian School of Economics
Campus Full time 2 years August 2017 Norway Bergen

Degree: MSc in Economics and Business Administration [+]

Masters in Energy in Europe 2017. Degree: MSc in Economics and Business Administration ECTS credits: 120 Duration: two years NHH is one of few business schools in the world where you can specialise in business within the energy sector and graduates from this master’s programme are in great demand. This programme aims to educate the next generation of interdisciplinary managers in the fields of energy and natural resource development. Future development and prosperity depends largely on access to energy sources and secure, reliable supplies of natural resources. Exploitation of these resources has a significant impact on the environment and getting the balance right is a critical factor in the commercial world where business sustainability is increasingly defined by factors going beyond the bottom line. Whether your goal is to shape public policy, become a resource economist, work for a big energy corporation, or pursue a career in commodity trading and financial products, the programme provides you with an excellent basis for a future career that encompasses crucial and relevant issues to modern society. ... [-]