Masters Programs in Energy Management

Compare 76 Masters Programs in Energy Management

Energy Management

Master in Energy Management programs are designed to prepare individuals to apply engineering principles and technical skills to help support professionals engaged in the development of sustainable energy-efficient practices.  Also due to the increase of qualified energy professionals, many engineers and urban planners are seeking individuals holding Master in Energy Management degrees. 

Curriculum for Master in Energy Management programs includes such topics as principles of energy conservation, instrumentation calibration, monitoring systems and test principles, energy loss inspection procedures, energy conservation techniques and report preparation. Professionals with a Master in Energy Management degree can be employed in a wide range of industries such as engineering, manufacturing, urban planning, government, private and public consulting firms, energy companies, sustainable living firms and conservation units. 

If you are considering a Master in Energy Management, you can learn more by browsing the options below. Take the next step toward your professional goals today!

 

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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. [+]

Masters in Energy Management. 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 [-]

Masters of Management in Energy

A. B. Freeman School of Business
Campus Full time 10 months September 2017 USA New Orleans

The curriculum was developed by faculty who specialize in energy and by industry professionals who work with our faculty and recruit our students. [+]

Masters of Management in Energy Program Overview The Master of Management in Energy program (MME) is a 10 month full time program beginning each July. Ideal candidates have solid academic backgrounds in quantitative majors such as accounting, business, computer science, economics, engineering, finance, mathematics, or sciences. The curriculum was developed by faculty who specialize in energy and by industry professionals who work with our faculty and recruit our students. Specialized courses include energy accounting, energy data analysis, energy economics, energy investment banking, energy modeling, energy portfolio management, energy risk management, energy strategy, and energy trading. The energy and finance courses are taught in our $3 million dollar trading center that is equipped with industry-leading technology, data bases, and trading software from Trading Technologies, Thompson Reuters, MorningStar, MathWorks, and 1Derrick. Graduates of the program are prepared to pursue career opportunities with energy companies, banks, trading organizations, utilities, ISOs, financial services and consulting firms, and regulatory agencies. Curriculum The curriculum has been designed by a team of faculty members who teach in the program and by industry professionals, who work with our faculty and recruit our students. Courses are delivered in sequence for maximum career development. The faculty integrates energy topics into courses through energy industry examples, state-of-the-art applications, leading-edge data bases, projects, and cases. The program begins with an intensive summer session that provides an introduction to the energy industry and focuses on sharpening computing and financial modeling skills. The fall semester strengthens core quantitative skills while broadening the perspective on the energy industry. Spring schedules are heavy with advanced energy courses that emphasize expertise and job-ready skills. Total Semester Credit Hours 36 Prerequisites (online prep courses) Financial Accounting Financial Management Summer Session Orientation, Career Development Workshops, and Field Trips Introduction to Energy (3) Energy Modeling (3) Excel/VBA Lab (0) Fall Energy Data Analysis (3) Energy and Environmental Economics (3) Energy Fundamentals and Trading (3) Energy Accounting (3) Approved Graduate Electives (3) Spring Energy Risk Management (3) Energy Strategy Capstone (3) Approved Graduate Electives (9) [-]

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 Management. 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. [-]

Master Européen Management Opérationnel du Développement Durable

INEAD
Online 2 years Open Enrollment Luxembourg Luxembourg Online Congo Congo ROC (Brazzaville) Online Mauritius Mauritius Online Canada Canada Online Niger Niger Online French Polynesia French Polynesia Online Lebanon Lebanon Online Senegal Senegal Online Morocco Morocco Online French Guiana French Guiana Online Côte d'Ivoire Cote d'Ivoire Online France France Online Tunisia Tunisia Online Martinique (Fr.) Martinique Online Switzerland Switzerland Online Algeria Algeria Online Guadeloupe (Fr.) Guadeloupe Online Belgium Belgium Online Democratic Republic of Congo Congo DRC (Zaire) Online Reunion (Fr.) Reunion Online + 37 more

Le Master Européen est destiné à ceux qui projettent de travailler en management du développement durable, en lien avec toutes les fonctions de l’entreprise, dans les trois grands secteurs économiques... [+]

UNE FORMATION, DES OBJECTIFS Connaître les aspects économiques et géopolitiques de l’Europe Appréhender les fondamentaux en développement durable, ISO 26000, communication, qualité, santé, sécurité, environnement et management, RSE Maîtriser la responsabilité sociétale et le développement durable en entreprise UN MÉTIER Le Master Européen est destiné à ceux qui projettent de travailler en management du développement durable, en lien avec toutes les fonctions de l’entreprise, dans les trois grands secteurs économiques, au sein de PME PMI : Qualité, Sécurité, Environnement (QSE) Ressources Humaines, achats, gestion, production Management, marketing, commercial Responsabilité Sociétale de l’Entreprise (RSE) PROGRAMME Stages: Stage ou mission en entreprise de 6 à 12 semaines en 1ère année et 12 semaines en 2ème année Ou Alternance (nous consulter) Langue vivante : 1 langue obligatoire 1 langue supplémentaire en option INFORMATIONS PRATIQUES Conditions d'admission: Niveau II (bac+3) 180 crédits ECTS Sur dossier Examens: Plusieurs sessions par an, organisées dans des centres partenaires FEDE (France et monde) Niveau De Sortie : Bac +5 Informations Diplôme : Master Européen** délivré par la Fédération Européenne des Ecoles (FEDE) – Association régie par le droit suisse (CCS.art 60-79). Le Master Européen est un diplôme européen validé par l’IACBE (International Assembly for Collegiate Business Education) qui est un organisme d’accréditation américain. [-]

Master of Finance (Financial Economics in Energy and Environment)

The Hong Kong Polytechnic University Faculty of Business
Campus Full time 1 - 2 years September 2017 Hong Kong

The Master of Finance (Financial Economics in Energy and Environment) (MoF-EEE) programme is suitable for degree graduates, particularly those with no or little work experience, who would like to specialize in the energy and environment areas of the financial industry. This specialism is built on solid economics and finance foundations and provides students with up-to-date business and financial information on the development of energy and environment markets. [+]

Master of Finance - Financial Economics in Energy and Environment (EEE)

The Master of Finance – Financial Economics in Energy and Environment (FT MoF-EEE) programme is suitable for degree graduates, particularly those with no or little work experience, who would like to specialize in the energy and environment areas of the financial industry. This specialism is built on solid economics and finance foundations and provides students with up-to-date business and financial information on the development of energy and environment markets.

Programme Outcomes

On completion of the FT MoF-EEE programme, graduates will be able to:... [-]


Master's Programme in Energy-Efficient and Environmental Building Design

Lund University
Campus Full time 2 years September 2017 Sweden Lund

This Master s programme will provide knowledge, skills and competence about energy-efficient, environmental building design in cold climates. Lund University is internationally renowned for high quality research related to energy-efficient buildings. [+]

Programme overview

Buildings are responsible for a large share of our global energy use. Energy use is in fact the main determinant of a building’s global environmental footprint, considering its total life span.

Lund University is internationally renowned for high quality research related to energy-efficient buildings. Our expertise is centred on a whole building perspective, which accounts for inhabitant needs, as well as their comfort and health. The University’s advanced research, and its close ties to the building industry, creates an excellent foundation for a strong Master’s programme with a largely unique focus on buildings.

Our students will graduate with advanced knowledge, skills and competencies within the area of energy-efficient and environmental building design in cold climates. Our goal is to train highly skilled professionals, who will significantly contribute to and influence the design, building or renovation of energy-efficient buildings, taking into consideration the architecture and environment, the inhabitants’ behaviour and needs, their health and comfort as well as the overall economy.... [-]


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 Management. 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 of Science in Sustainable Building Information Management

Jönköping University
Campus Full time 2 years September 2017 Sweden Jönköping

The Master Program Sustainable Building Information Management gives the student knowledge, skills and tools needed to produce, use and manage BIM in the building sector to create sustainable values. The knowledge received in the program will enhance the careers of existing professionals and create new career paths for young professionals, e.g. as BIM engineer, BIM coordinator and BIM manager. Positions that did not exist until recently, but now they are key positions in many companies. [+]

The building sector is a key actor in the process of creating sustainable value, both for the client and for the society. BIM is a collective name for ICT-based tools and methods used in the building sector. Traditionally, the acronym BIM stands for Building Information Model, Building Information Modeling or Building Information Method. Today, to scope the complexity of this process, we talk about Building Information Management. BIM let stakeholders visualize, simulate, and analyze how a building might behave, perform, or appear—earlier in the process and with more precision. The Master Program Sustainable Building Information Management gives the student knowledge, skills and tools needed to produce, use and manage BIM in the building sector to create sustainable values. The knowledge received in the program will enhance the careers of existing professionals and create new career paths for young professionals, e.g. as BIM engineer, BIM coordinator and BIM manager. Positions that did not exist until recently, but now they are key positions in many companies. Courses within the programme Courses are preliminary and may be subject to change. Year 1 Industrial Product Realization 9 credits Parametric design 9 credits SUS-Analyses and Simulations 6 credits BIM-manuals and Information Delivery-Requirements and Specifications 6 credits Mathematical Statistics 6 credits Programming Python, Object Orientation and XML 6 credits BIM-manuals and Information Delivery - Management and Control 6 credits BIM-implementation 6 credits Research methods 6 credits Year 2 Industry Placement Course Common for all Masters 9 credits Plattforms, Configuration and Optimization 9 credits Advanced Building Information Delivery 6 credits BIM for Value Creation 6 credits Final Thesis Work 30 credits Facts Credits: 120,0 ECTS credits Level: Master's Rate of study: Full-time Place of study: Campus-based Language: English Start date: Autumn 2017 Requirements: The applicant must hold the minimum of a bachelor’s degree (i.e the equivalent of 180 ECTS credits at an accredited university) with at least 90 ECTS credits in construction engineering or civil engineering, or equivalent. The bachelor’s degree should comprise a minimum of 15 ECTS credits in mathematics. English proficiency is required. Proof of English profiency is required. [-]

Masters In Renewable Energy And Energy Efficiency

UDIMA - Universidad a Distancia de Madrid
Online Part time 12 months Spain Madrid

The main objective of the Master is the presentation and implementation of the necessary measures to implement and operate the main sources of renewable energy, presentation of the principles on which the ESCOs, tools for monitoring and optimization are based notions consumption and audit application frameworks, legislation and energy rating of buildings, projects and facilities ... [+]

Masters in Energy Management. In recent years there has been an unprecedented growth in the energy sector at European and international level, in response to social demands, political and economic bet for a better use of energy and generation of it through sources not pollute the environment. Action Plans Renewable Energy, both nationally and internationally, they envision a highly competitive labor market in the coming years in the areas of energy efficiency and use of renewable energies, which already exists today high demand professionals trained in these areas, but also with a level of demand in terms of high theoretical and practical knowledge, only achievable through college. The title of Master in Renewable Energy and Energy Efficiency offers the possibility to engineers, technical engineers, architects and technical architects to acquire the knowledge and experience required for the operation and management of renewable energy (solar, wind, clean vectors, biomass and biofuels , etc.), knowledge of the electricity markets and Charges, energy audit, energy rating of buildings, bioclimatic architecture, legislation facilities, internationalization, and in general all project management based on energy efficiency or renewable energy to compete in the current and future labor market in this growing field of professional activity. The lessons for the Master in Renewable Energy and Energy Efficiency are official and the curriculum is published in the Official Gazette number 67 of 19 March 2014. Addressed to Engineers, technicians, engineers, architects and technical architects who need to acquire the knowledge and experience necessary for the operation and management of renewable energy, knowledge of the electricity markets and Charges, energy audit, energy rating of buildings, bioclimatic architecture, legislation installations, internationalization and, in general, all based project management in energy efficiency or renewable energy to compete in the current and future labor market in this growing field of professional activity. Main objective of the Master The main objective of the Master is the presentation and implementation of the necessary measures to implement and operate the main sources of renewable energy, presentation of the principles on which the ESCOs, tools for monitoring and optimization are based notions consumption and audit application frameworks, legislation and energy rating of buildings, projects and facilities. It also seeks to highlight the value chain of renewable energy projects and energy efficiency, with particular attention to econometric analysis of these projects and their emerging energy market. Thus the Master is responsible for providing comprehensive theoretical training and practice in all matters relating to the exploitation of renewable energy and management, legislation and auditing of energy efficiency projects, installations and buildings. Program Photovoltaic Solar Energy. Consumption. Thermal solar energy. Wind power. Biomass. Biofuels. electricity market and pricing. ESCOs. Energy audit and optimization of consumption. Telemetry and monitoring tools. Other renewable energies. Bioclimatic architecture. energy rating of buildings. Internationalization. Project value chain. economic analysis and emerging markets. Legislation energy facilities. external practices. Master's Thesis. Methodology on line Classes online. The program includes an instructional design based on the European Higher Education Area and the own methodological model. The evaluation system is continuous learning and is based on: learning activities (evaluation tests based on the collective generation of knowledge); self-assessment test (testing interactive online evaluation); ongoing evaluation activities (AEC) (cases and case studies, information search, implementation and reporting); semester final exam face. They begin in the months of October and February each year. The normal duration is 12 months. [-]

European Master in Sustainable Energy System Management

European Master in Renewable Energy and European Master in Sustainable Energy System Management
Campus Full time September 2017 Netherlands Groningen Spain Zaragoza Italy Pisa + 3 more

SESyM focuses on the multidisciplinary aspects of energy systems. It provides management and communication skills, as well as the necessary technical knowledge to tackle the challenge of the energy system transition. [+]

Objectives The aim of the European Master in Sustainable Energy System Management is to provide postgraduate students with the skills required for employment in the Sustainable Energy industry. Students will specialise in business case analysis, modelling,project design and implementation. As a result of the foreign contact the course requires, our students will have the international outlook essential to the industry HR needs. By structuring the course in three sections, students are guaranteed to spend time in at least two different EU countries and make contact with a wide range of European institutes and companies involved in the sustainable energy sector. The participating universities are all well-established in training and the education sector as well as being recognised at an international level for their work in the field of sustainable energy system management. Structure The course is divided into three sections. In the first semester(September/October to January), students acquire a solid foundation in systems management. In the second semester (February to June), they specialise in a chosen topic at a different university. At the end of the course, students complete a six-month practical or research project. The entire programme is run on a modular basis with credits awarded for passing each section and the successful completion of the project. A total of 90 ECTS credits (30 for each section of the course) are required with a satisfactory level of achievement in all the sections to obtain the European Master degree. The core provides a solid foundation in systems management with legal, environmental, economic,social and technical aspects. Theoretical courses which also examine the socioeconomic issues surrounding the deployment of these technologies are supported by laboratory workshops. The studies for the core will be done in English. The student can choose one of the following: Hanze UAS, The Netherlands for the core taught in English Università di Pisa, Italy for the core taught in English The Core providers all teach these subjects: Systems management with legal, environmental, economic, social and technical aspects System integration and planning Modelling Scenario development Strategic decision-making Communication Each University has its own teaching methods - distribution of modules can be organised differently - nevertheless we ensure that at the end of the core semester all SESyM students have the same understanding and the same knowledge of systems management, enabling them to follow any of the offered specialisations. 30 ECTS credits will be awarded for passing the core semester following harmonised learning outcomes. A specialisation focused on a particular topic selected from: system integration and optimisation or sustainable energy management. Specialisations are all taught in English. Participating universities are willing to provide the above-mentioned specialisations. However, their effective realisation will depend on the final number of students who register. Normally, this decision is taken at the end of July. Students whose specialisation is cancelled will be offered a suitable alternative. The specialisation sections run from February to the end of May or June depending on the specialisation. The student specialises in one of the following: System Integration and Optimisation – taught at Hanze UAS Sustainable Energy Management – taught at the University of Zaragoza Upon completion of the specialisation, the student gains practical or research experience through a project undertaken in an industry, a research laboratory or at the university. A wide variety of projects can be proposed and it gives flexibility to the student and the project provider to define the project. The student is welcome to propose his/her own project. EUREC and the course directors continuously contact renewable energy companies throughout the year to encourage them to propose a student project. Yet,students should not expect to get a list of projects to choose from. Students are expected to look for companies or research centres wishing to offer them a project individually. A qualified person from the specialisation University will give students advice about how to proceed in finding the best project to suit their qualifications and expectations. More information on our website: www.sesym.eurec.be [-]

Master in International Energy

Sciences Po
Campus Full time 2 years September 2017 France Paris

Energy warrants a cross-discipline, cross-sector study as its supply and use is centre-stage of heated political debate at all levels, in relation to economic growth, sustainable development, stability of financial markets, climate change, security, or technological solutions. [+]

Masters in Energy Management. Master in International Energy General Objectives Energy warrants a cross-discipline, cross-sector study as its supply and use is centre-stage of heated political debate at all levels, in relation to economic growth, sustainable development, stability of financial markets, climate change, security, or technological solutions. Energy supply is and will remain a major development challenge for developing and developed countries alike. PSIA's International Energy program responds rigorously to a growing worldwide demand in energy expertise, with a cutting-edge curriculum, internship program, and active series of public lectures and events with industry and government leaders. Graduates enter the global job market with a strong international outlook and an incomparable understanding of complex interrelations between different issues, actors and technological solutions. Scientific Advisor Giacomo Luciani is the Scientific Advisor of the Master in International Energy. He is also a Princeton University Global Scholar; Visiting Professor at PSIA and at the Graduate Institute of International and Development Studies in Geneva. Giacomo Luciani founded and directed the Institute for Research on International Economics. His research interests include Political economy of the Middle East and North Africa and Geopolitics of energy. His work has focused primarily on the economic and political dynamics of rentier states and issues of development in the GCC countries. Professor Giacomo Luciani teaches a Sciences Po MOOC entitled "Politics and Economics of International Energy". Main orientations and specific features In short, energy supply and use will remain at the center of the political debate internationally as well as nationally. Creation of a single European energy market remains a major challenge for the Union, and has profound consequences on its external relations. Energy policies need to be adopted at the national and subnational level, and be coordinated internationally. Career opportunities Governments, financial institutions, policy studies, think tanks and the media seek professionals with sufficient technical knowledge of energy issues to raise the debate. Energy companies, increasingly numerous and diverse, need public policy experts to advise on political and social acceptability of technological solutions and business strategies. Career openings include private enterprises, research institutes, international organizations, banks, consulting and multinational firms. [-]

Master in Sustainable Energy Systems

Mälardalen University
Campus Full time 2 years September 2017 Sweden Eskilstuna

This programme will teach you how to work with energy conversion technologies and systems for enhancing sustainable development. [+]

Master in Sustainable Energy Systems

Sustainable energy systems are necessary to overcome the problems related to energy supplies and climate change in the world. Do you want to work with energy conversion technologies and systems for enhancing sustainable development?

The Programme

The Master’s programme in Sustainable Energy Systems will provide you with state-of-the-art knowledge within this important area. You will learn about technologies for utilising the sun, wind and biomass as energy sources. The production of power and heat by ways of energy conversion based on steam and gas turbine processes also falls within the scope of this programme. Furthermore, youwill learn about performance analyses of different energy systems and process integration. Methods for optimisation, modelling and simulation of energy systems are also included in the programme.... [-]


Master in Electrical Engineering, Power Engineering and Management

Czech Technical University in Prague
Campus Full time 2 years October 2017 Czech Republic Prague

Technological Systems | Electrical Machines, Apparatus and Drives | Electrical Power Engineering | Economics and Management of Power Engineering | Economics and Management of Electrical Engineering [+]

Masters in Energy Management. Fields of Study - Technological Systems - Electrical Machines, Apparatuses and Drives - Electrical Power Engineering - Economics and Management of Power Engineering - Economics and Management of Electrical Engineering Entrance Requeirements - fully completed application form - relevant bachelor degree Level of English provide communication skills during the admission procedure Scholarship not for the first year students [-]

M.Plan. in Urban Design, Sustainability and Conservation

Srishti Institute of Art, Design and Technology
Campus Full time 2 years July 2017 India Bangalore

The Master of Planning in Urban Design, Sustainability, and Conservation, prepares students with the knowledge and skills to understand and analyze urban areas as spatial structures, social networks, cultural landscapes, and service systems, and to design better, and more inclusive and sustainable urban environments responsive to the particular natural and cultural identities and heritage of the place. This course invites students to engage with cities in a multidisciplinary way to propose local solutions to global issues like climate change and migration, and to protect heritage values. It offers a multi disciplinary approach to urban design and conservation that critically engages with ideas of sustainability and resilience, urban and regional, and development and community. [+]

M.Plan. in Urban Design, Sustainability and Conservation From small neighborhoods to large metropolitan centers, urban areas in India today are in a state of rapid growth and transformation. Rapid urbanization and relentless globalization threaten to erode, diminish, and erase the cultural heritage (tangible and intangible) along with irreparable destruction to the natural environment of places. We believe that a deeper understanding and engagement with the cultural heritage and natural environment and ecology of particular locales will lead to creative and innovative strategies to protect heritage values while reaching for inclusive and sustainable goals in the design of urban landscapes. The Master of Planning in Urban Design, Sustainability, and Conservation, prepares students with the knowledge and skills to understand and analyze urban areas as spatial structures, social networks, cultural landscapes, and service systems, and to design better, and more inclusive and sustainable urban environments responsive to the particular natural and cultural identities and heritage of the place. This course invites students to engage with cities in a multidisciplinary way to propose local solutions to global issues like climate change and migration, and to protect heritage values. It offers a multi disciplinary approach to urban design and conservation that critically engages with ideas of sustainability and resilience, urban and regional, and development and community. The course is a program of the UNESCO Chair in Culture, Habitat, and Sustainable Development at Srishti. As such, students will gain familiarity with international (and national) norms and standards in heritage management including the World Heritage Convention. They will also explore new approaches to managing and designing with heritage to benefit local communities, plan better places, and nurture cultural entrepreneurship compatible with heritage values of particular places Cycle Project workshop organized by Srishti and Premsela as part of the DutchDFA program. Disciplines The M.Plan. in Urban Design, Sustainability, and Conservation is informed by the following learning disciplines: Architecture and Urban Design Cultural Studies Ecology and Environment Heritage Conservation Research – Art and Design Urban and Regional Planning LeNS (Learning Network on Sustainability) India Team working on the long-term goals – Visioning Session of LeNS India. Research and Collaboration Students have opportunities to work within the academic structures and/or work across the following centers and labs: Bangalore Human Sciences Initiatives (BHSI) Center for Public History (CPH) Design+Environment+Law Laboratory (DEL Laboratory) Learning Networks on Sustainability (LeNS)-India Srishti Films The Kabir Project UNESCO Chair at Srishti While for most respondents the concept of a board game was novel, the game has a potential for communicating the FRA given the pre-requisites – Arpitha Kodiveri, ROOTS Project, Photo Courtesy: DEL Laboratory. Key Values Cultural and natural heritage are valuable non-renewable resources Cultural and natural heritage make places more livable. Cultural and natural heritage form the identity of a place Design and planning to respond to local context is more sustainable Course Structure Studios encourage active, contextual learning where students develop core disciplinary skills and knowledge. Studios facilitate collaborative and creative design solutions to complex, open-ended problems Workshops provide intense learning experiences in making and doing, across the different disciplines. Internship with an industry or a design studio is compulsory for students at the end of 1st year for M.Des. Self Initiated Project is an end of the semester challenge that allows the student to engage in research / enquiry or design based projects. Students begin by writing their project proposal and defining the scope of their project and they are mentored by faculty / design professionals. Electives are liberal arts courses aimed to cultivate intellectual and reflective abilities in students and motivate them to probe deeper and approach their design process in a holistic manner. Capstone Project is the culmination of the research, capabilities and knowledge gained over the last three semesters. Students are required to submit their design output and a mandated thesis document. Students are mentored during this final project and go through seminars to get feedback from faculty and peer groups Student in a course on mapping places using GIS, course facilitators – HS Sudhira and Shweta Dange, Course: Making Places. Capabilities On successful completion of the course, graduates will have a specialization in urban design and planning that is culturally and environmentally sustainable Further, students would acquire the following capabilities: Knowledge and Understanding: Conceptual clarity around what is urban sustainability, cultural heritage and natural environment and why heritage contributes to better urban environments An understanding of key international norms and standards around protection and management of cultural and natural heritage Communication Skills: Familiarity with professional writing such as grants proposals and reports GIS and spatial data survey and mapping; 3-D visualization Specific heritage related skills such as inventorying and assessment of threats, mapping, and community study Practitioner Skills: Understanding of how to design and plan places at different urban scales while also nurturing and protecting heritage. Ability to plan and design in a participatory with as part of a multidisciplinary group and with local community. Opportunities The M.Plan. in Urban Design and Sustainability would open up the following opportunities to successful graduates: Enhanced employment opportunities with specialization and refinement in heritage compatible design, urban design, and sustainability design in a variety of creative professional practices such as planning, urban design, architecture, landscape architecture, and housing design. Employment in research and development organizations, NGOs & social enterprises working in any field of built environment, cities, heritage, sustainability and resilience. Employment with museums and galleries Become a design and planning entrepreneur Become an academic in a design program [-]

Master's in Sustainable Energy

Hamad bin Khalifa University
Campus Full time September 2017 Qatar Doha

The HBKU Sustainable Energy master’s program provide students with extensive knowledge in topics related to sustainable energy and the impact urbanization, transportation and manufacturing have on energy sustainability. The programs also looks at the implications and drivers of sustainable policymaking on society, the economy and the environment. [+]

Masters in Energy Management. Master's in Sustainable Energy The HBKU Sustainable Energy master’s and Ph.D. programs provide students with extensive knowledge in topics related to sustainable energy and the impact urbanization, transportation and manufacturing have on energy sustainability. The programs also looks at the implications and drivers of sustainable policymaking on society, the economy and the environment. A key component for both degrees is original, guided research in energy science and technologies that support sustainable development. The multidisciplinary approach to the curricula allows for engagement in cross-disciplinary science and builds fundamental knowledge that evolves with the developments within the energy field, equipping graduates with the tools needed to pursue a wide variety of career. Admissions requirements Applicants must have a bachelor’s degree relevant to this program, which typically includes science and engineering. Additionally, backgrounds in economic, business, policy, and social sciences will be considered. Applicants should demonstrate strong evidence supporting the prospect that they will become successful researchers and professionals. These include excellent performance in relevant coursework, past research results if any, and strong recommendation letters. Applicants with prior research experience are preferred. Applicants are required to take the IELTS or TOEFL exam in order to demonstrate their proficiency in English. Applicants who are fluent in English may be exempt from this requirement. While not required for the master’s programs the GRE exam is recommended and will strengthen an applicant’s submission. Applicants coming from an economics, policy and other social science background may submit results of the GMAT exam as an alternative to the GRE. All applications are reviewed by the HBKU Sustainability Division Master’s/Ph.D. Graduate Advisory Committee (GAC), who will make the final decision regarding admission. [-]