Masters Programs in Energy Engineering

Compare 34 Masters Programs in Energy Engineering

Energy Engineering

A diverse field of engineering, which deals with energy efficiency and services, facility management, plant engineering, environmental compliance and alternative energy, Energy Engineering is quickly growing as the global demand for energy increases exponentially each year. Master in Energy Engineering students learn about the macro-implications of their work, weighing the environmental benefits and drawbacks to certain energy sources, while becoming experts in the practical aspects of harnessing, using and distributing energy from a range of sources.

Master in Energy Engineering students can choose to specialize in a number of specific areas, such as Nuclear Energy, Energy Optimization for Buildings, Turfgrass Management, Environmental Management, Oil and Gas Engineering and Sustainable Energy. Building on knowledge and skills established in a bachelors degree in an engineering field, a Master in Energy Engineering continues foundational courses in advanced mathematics and physics, combined with focused coursework in the target area of concentration. Available at universities and institutions in Africa, America, Asia, Europe and Oceania, there are dozens of accredited Master in Energy Engineering programs to choose from, all featuring highly trained and experienced staff.

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Master of Energy Change (MEC)

The Australian National University | Science
Campus Full time 2 years January 2017 Australia Canberra

The Master of Energy Change is an interdisciplinary coursework program that will allow you to develop a program of advanced learning suited to your individual interests, skills and aspirations in the area of energy change. <a href="http://www.anu.edu.au/students/program-administration/costs-fees" ></a> [+]

Masters in Energy Engineering. A single two year graduate degree offered by the ANU College of Medicine, Biology and Environment The Master of Energy Change is an interdisciplinary coursework program that will allow you to develop a program of advanced learning suited to your individual interests, skills and aspirations in the area of energy change. A major key to addressing climate change is the need for a world-wide change to carbon-free forms of energy production. The need for energy change is well-established yet there are relatively few people with an effective overview or the multi-disciplinary skills needed to effectively contribute to this complex issue. Our graduates find work in government, policy, scientific research, development and aid organisations, multi-national companies, and many other exciting fields. Learning Outcomes On completion of the program, students will have the skills and knowledge to: Demonstrate cognitive, technical and creative skills to investigate, analyse and synthesise complex information, problems, concepts and theories relating to energy Apply multi-disciplinary approaches to address complex real-world energy-related problems Demonstrate a high level of technical knowledge in subjects relevant to energy and climate change. Communicate effectively with colleagues, other professionals and the broader community using a range of communication media and tools Demonstrate knowledge of research methods and carry out research in the area of energy, climate change and/or sustainability Research Strengths The ANU provides authoritative leadership in energy change research through a broad portfolio of major, internationally recognised fields of energy diversification, and by addressing key issues surrounding energy implementation. Research in Energy Change at ANU covers a complete spectrum from energy science, engineering, efficiency and technology, to implementation expertise in the economic, legal, sociological and policy issues surrounding Energy Change. This broad portfolio of research activity is unique in the country. For more details of our research activities, see http://energy.anu.edu.au/research Employment Opportunities The need for energy change is well-established yet there are relatively few people with an effective overview or the multi-disciplinary skills needed to effectively contribute to this complex issue. Depending on the area of study and specialisation, our graduates find work in government, policy, scientific research, development and aid organisations, multi-national companies, and many other exciting fields. This progressive program is also a pathway to more advanced study. Career Options ANU provides you with more choice for your entrance score by offering the new Flexible Double Degree program. The ANU Flexible Double Degree lets you build skills for your chosen career without forfeiting your passion. It's your choice to build a double degree partnership that suits your head and your heart.http://students.anu.edu.au/applications/ Further Information Students have the option of applying to transfer to the Master of Energy Change (Adv) and undertaking a 48 unit research project if they satisfy the following requirements: achieve a minimum 70% weighted average mark in the initial 48 units of coursework have the approval of an identified supervisor, and have completed compulsory courses in the Master of Energy Change (Advanced) Students who have completed 48 units and wish to exit the program have the option of transferring to graduate from a Graduate Diploma of Science. Students who have completed 24 units and wish to exit the program have the option of transferring to graduate from a Graduate Certificate of Science. Admission Requirements A Bachelor degree or international equivalent with an average mark of at least 70% and at least eight courses in cognate disciplines. All applicants must meet the University’s English Language Admission Requirements for Students. Applicants with a Bachelor degree or Graduate Certificate in a cognate discipline may be eligible for up to 24 units (1 semester full-time) of credit. Applicants with a Graduate Diploma or Honours in a cognate discipline may be eligible for up to 48 units (1 year full-time) of credit. Cognate disciplines Biology, Chemistry, Economics, Engineering, Environmental Studies, Law, Mathematics, Physics, Political Science, Sociology Indicative fees Domestic students: $29,280.00 ... [-]

Master in Solar Energy Engineering (1 year or 2 years)

Dalarna University
Campus Full time 1 year August 2017 Sweden Borlänge

With an ideal blend of theory and practical inputs, this is one of DU's most outstanding programmes. Extensive research work at the (SERC) Solar Energy Research Center ensures you are exposed to all relevant subjects of solar energy engineering. Upon completion of the programme, you will have excellent job opportunities in the fast-growing solar industry in Europe as well as in other countries. Many graduates continue their academic career as PhD students and become researchers and teachers at universities throughout the world. Programme graduates have formed an active worldwide Alumni network that supports current students in the development of suitable thesis projects and later as they begin their professional careers. Master programme in Solar Energy Engineering www.du.se/en/solar Master Programme in Solar Energy Engineering, 60 credits (1 year) Master Programme in Solar Energy Engineering, 120 credits (2 years) Location: Campus Borlänge Degree Awarded: Master of Science in Mechanical Engineering Career Opportunities: Work in the PV and solar thermal industry, designing, researching and developing new solar technologies for various national and international companies [+]

This Master’s Degree Programme is based on the research work at the Solar Energy Research Center (SERC) at Dalarna University. The programme started in 1999 under the name “European Solar Engineering School (ESES)”. Since then about 250 students have taken the programme and most of them work today as solar experts in the solar industry and as researchers and teachers at universities all over the world.

Why should you take this programme? Solar energy will play a crucial role in the supply of future energy on Earth. Solar energy engineers are already required in many sectors of the energy industry. This one year master’s degree programme has an ideal blend of theory and practical elements that give students an optimal start for their solar career. You will study while in close contact with teachers and researchers at (SERC). In the courses you will be trained on real-case projects. The international character of the programme and its participants will allow you to work in multinational companies and to create a worldwide network for your future career. Who should study Solar Energy? ... [-]

M.Sc. Water Resources Engineering

National University of Ireland Galway College of Engineering & Informatics
Campus Full time 1 year September 2017 Ireland Galway

This programme will provide engineers with the technical competences to provide solutions to water security issues. Core modules will address technical aspects of water [+]

Masters in Energy Engineering. Big Challenges being addressed by this programme - Water security is a major concern facing humanity, engineers are the primary professionals tackling this issue. - Annually, more than 3.4 million people die from water related diseases - 1 in 9 people world-wide do not have access to safe and clean drinking water - 1 in 3 people world-wide are affected by water scarcity - Population growth and climate change will place significant stresses on global water resources - Flooding of both urban and rural areas is being exacerbated by climate change Programme objectives & purpose This programme will provide engineers with the technical competences to provide solutions to water security issues. Core modules will address technical aspects of water provision, water resource management and flood mitigation. A primary objective of the programme is to ensure that students have a thorough understanding of modern hydrological modelling tools. The programme has a strong emphasis on the design of hydrological systems, with students working in groups to solve real world problems. Graduates of this programme will be in a position to make significant contributions to solving water resource problems in both industry and academia worldwide. What’s special about CoEI/National University Ireland Galway in this area: - Water engineering has been taught at graduate level at NUIG for over 40 years. During this period students from over 50 countries have graduated from NUIG. - This MSc in Water Resources Engineering is a re-launch of NUI Galway’s International Postgraduate Hydrology Programme established by the late Prof Eamonn Nash. Many of the staff who lectured on the Hydrology Programme contribute to the current programme; so the recognised tradition of world-class teaching in water engineering at NUIG continues. - Currently NUIG staff are involved in large-scale funded research projects in water resources, facilitated by the world-class research facilities at NUIG. Programme Structure This is a 90ECTS programme It is a one full year programme, starting in September and finishing August The programme comprises of the following elements: - taught (core and elective) modules (55 ECTS) - integrated group design project (15 ECTS) - individual research project and thesis (30 ECTS). Programme Content Sample Core Modules: - Hydrology & Water Resources - Hydraulic Modelling - Design of Sustainable Environmental Systems Water Quality Modelling - Water Resources in Developing Countries Applied Field Hydrogeology - Advanced Fluid Mechanics Sample Elective Modules: - Computational Methods in Civil Engineering - Turbomachines & Advanced Fluid Dynamics - Environmental Economics - Engineering Finance - Project Management - Applied Statistics for Engineers - Environmental Impact Assessment - Global Climate Change Opportunity for number of Industrial & Research internships. Students enrolled on this programme will have an opportunity to apply for a one-year post-graduation internship in either a related industry or research group in Ireland. Scholarships A number of scholarships are being made available by the College of Engineering and Informatics to non-EU students registered on these MSc programmes. Each scholarship will be valued at €2,500 and will be awarded to successful candidates based on the submission of a personal statement and CV to the College.    A number of industry sponsored Scholarships will also be available, each to the value of €2,500. The College of Engineering and Informatics will also award the Nash Scholarship in Water Resource Engineering. This is in memory of our deceased colleague, Eamonn Nash who was our Professor of Engineering Hydrology for many years, and was a well-known in the international engineering community. The “Nash cascade” and “NashSutcliffe coefficient” were named after him, and these still feature in scholarly publications. Over four hundred senior hydrologists throughout the world received their post-graduate hydrological education at this University. Entry Requirements: Minimum entry requirement is a Second Class Honours Grade 1 in Civil / Environmental Engineering or equivalent. Applications from candidates from cognate disciplines will be considered on a case-by-case basis. How to apply Applications are made online via the Postgraduate Applications Centre (PAC). The PAC code for this program is GYE23. [-]

Master in Science and Materials of Solar Energy

National University of Science and Technology MISiS
Campus Full time 2 years October 2017 Russia Moscow

This two-year Master’s program taught in English is designed create an integral understanding of modern technologies used in solar energy research and development, industrial production of modern solar cells, panels and systems. [+]

The two-year Master’s program Science and Materials of Solar Energy is designed create an integral understanding of modern technologies used in solar energy research and development, industrial production of modern solar cells, panels and systems. The main aim of the program is to prepare highly-qualified personnel capable of working in both research laboratories and the industrial sector, equipped with theoretical and practical knowledge and analytical and problem solving skills in the field of Solar Energy. The program provides necessary skills for development and modernization of the Renewable Energy sector by means of innovative solutions and deployment of new materials and technologies. It also prepares students for work in industrial, research and development companies, and laboratories, developing energy-efficient and environmentally friendly solutions to local and global problems. Successful completion of the course provides the student with the necessary theoretical and practical knowledge of various types and constructions of solar cells as well as production techniques and processes deployed by the micro and nano-electronics industries. The student gains knowledge about general fundamentals of material science, physical and chemical properties of materials used in electronics industry. The student is also provided with knowledge about the wide spectrum of applications and qualities of new materials and structures designed at the nano-scale. In addition to theoretical and practical knowledge of the main discipline, the student has access to the optional independent research projects and courses, which allows widening the spectrum of professional knowledge and skills in the area of innovative technology. These include Methods of structure research (provides understanding of how to choose the optimal method for a solution of a given research task) Fundamentals of solid state physics (describes internal processes in materials) Fundamentals of electronics (provides understanding of functions of fundamental elements of electronics systems on a micro level, circuit design, circuit characterization parameter control) Fundamentals of quantum physics Admission Admission to International Master’s Programs at MISiS is open to both Russian and international students. Given that all classes will be conducted in English, we recommend that nonnative speakers of English achieve a TOEFL score of at least 525 (paper based) or 200 (computer based) prior to admission. To apply for a two-year Master’s program at MISiS, the applicant must hold a Bachelor’s degree in a related field. Upon the completion of the program of study at MISiS, the applicant will receive a Russian State diploma and a European Diploma Supplement. Admission Deadline The deadline to submit the application for Fall 2016 is 15 March 2016.... [-]

Master of Engineering Science (Petroleum Engineering)

Curtin University
Campus Full time 2 years February 2017 Australia Bentley

This comprehensive course will provide you with a multidisciplinary education and hands-on training in petroleum engineering. [+]

Masters in Energy Engineering. Master of Engineering Science (Petroleum Engineering) This comprehensive course will provide you with a multidisciplinary education and hands-on training in petroleum engineering. You will cover a wide variety of subjects central to the petroleum engineering field, including applied geology and geophysics, drilling and reservoir engineering, hydrocarbon phase behaviour, formation evaluation, petroleum economics and project management. In your final semester you will complete an individual research project and develop a thesis under the guidance of one of our highly experienced staff. To assist your studies, we will provide you with access to top of the range computer hardware and software, and the Society of Petroleum Engineers’ online information library. Professional recognition Students may apply for student membership of the Society of Petroleum Engineers (U.S). Upon graduation you may apply for active membership of the society. Career opportunities There is a strong demand for qualified petroleum engineers in the oil and gas industry, both within Australia and internationally. Our graduates have found work as fully qualified petroleum engineers in the upstream oil and gas industry. Credit for previous study Applications for recognition of prior learning are assessed on an individual basis. Australian & NZ students ENTRY REQUIREMENTS: An honours degree or equivalent in a relevant engineering or science discipline including at least first year university level subjects in both physics and calculus. Candidates with degrees in other disciplines may be considered where they have relevant work experience. WHERE: Bentley WHEN: February HOW: Full-time STUDY: On-campus DURATION: Expected completion: 2 years International students 2015 ENTRY REQUIREMENTS: Minimum English language entry requirements: IELTS ACADEMIC (INTERNATIONAL ENGLISH LANGUAGE TESTING SYSTEM) Writing 6.0 Speaking 6.0 Reading 6.0 Listening 6.0 Overall band score 6.5 Certificate in Advanced English (CAE): Grade C Pearson Test of English Academic: 58 WHERE: Bentley WHEN: February HOW: Full-time STUDY: On-campus DURATION: 2 years full-time [-]

Master in Electrical Engineering

University of Mons
Campus Full time 2 years September 2017 Belgium Mons

The main objective of the curriculum is to offer a good foundation in electrical sciences. All core courses dedicated to electrical students cover all the fields of electrical engineering such as electrical machines, electronics (including power electronics) and microprocessor systems [+]

The main objective of the curriculum is to offer a good foundation in electrical sciences. All core courses dedicated to electrical students cover all the fields of electrical engineering such as electrical machines, electronics (including power electronics) and microprocessor systems, automatic control, telecommunications, signals processing, computer networks, multimedia, embedded systems, advanced process control, robotics, bio-engineering, numerical analysis, high voltage networks, ... Profile of the programme Besides the core courses, the curriculum gives opportunities to develop personal work through projects, in particular with the Master thesis and other various projects within the framework of the two-year master's curriculum. These projects are for electrical engineering students the opportunity to perform all steps of the design of practical electrical systems, such as, for example (not exhaustive list): ADSL modems, GSM or MP3 codecs, industrial sorting system controls, camera memory card readers, identification of bioprocess models, electric vehicles, … Moreover, the electrical division offers students the opportunity to do their Master thesis abroad within the framework of student exchange programmes (ERASMUS) between the academic staff and a large number of universities or engineering schools all over the world (University of Stuttgart, University Laval in Quebec, University of Montreal, Ecole Polytechnique Federale de Lausanne, Institute of Technology at Linköping, University of Edinburgh, Ecole Nationale des Telecommunications de Paris, etc..). In particular, thanks to its membership of the TIME (Top Industrial Managers for Europe) network, the FPMs makes it possible for some students to get a double Master's degree with other institutions involved in the network (Supélec in Paris and Metz, Ecole Centrale de Lille, Politecnico di Milano, etc.). Finally, the third objective of the curriculum is to offer a specialization domain chosen among three focuses: Multimedia and Telecommunications (related to the FPMS NTIC cluster) has close links with the research centre MULTITEL, founded by the FPMs in 1999, which is known as a worldwide centre of excellence in the field of signal processing, information technology, and telecommunications. Students have the option of carrying out their Master thesis in collaboration with MULTITEL researchers with whom they also have privileged contacts in the framework of specialized courses. Biosystems Engineering (related to the UMONS BIOSYS cluster), makes links between process modeling & control, signal processing, and life science engineering . This specialism allows to provide electrical engineers with a solid background, not only in industrial process automation, but also in biological systems modeling and biomedical signal processing. Energy & Electricity (related to the FPMS ENERGY cluster) focuses on current key issues in the specialization field, such as renewable energies, the liberalization of the electricity market, transport… Moreover, it offers the opportunity of carrying out a major corporate study in collaboration with industry. This work aims to provide results directly usable by the associated companies. The courses in "Multimedia and Telecommunications" and "Biosystems Engineering" are taught in English, and the examination is done either in English or in French, according to the student’s preference. Key learning outcomes By the end of their programme in Engineering Sciences, the master graduates will be able to: Demonstrate expertise and versatility in the sciences and technology Formulate and analyse complex problems Adopt an applied scientific approach Innovate Implement solutions Plan and carry out projects in engineering Work in and lead a team Master scientific and technical communication Practice interpersonal communication appropriate to each context Be a critical, reflexive and independent professional Be a responsible person, in step with the stakes of society By the end of this specific course programme, the students will be able to: Resolve complex issues related to all aspects of the use of electricity as power support and / or information support. Develop and apply methodologies and cutting edge technologies for efficient design and implementation of solutions to problems For the focuses, Solve complex problems more specialized in one or more areas: electronics, microelectronics, information technology (hardware and software), telecommunications, telematics, .. (Multimedia and telecommunications focus) automation, robotics, environmental systems and biotechnologies, biomedical engineering (biosignals), .. (Biosystems Engineering focus ) generation, transportation and distribution of electric energy, power electronics, electrical machines, .. (Energy & Electricity focus) Occupational profiles Inheriting from 200 years of technological developments stemming from the “magic of light”, electrical engineers have been assigned a wide variety of missions. A closer look at the various positions occupied by the electrical engineers of our Faculty reveals a great diversity of functions : in research offices, research labs, in the service sector (banks, insurance companies, etc.), in education (in Belgium and abroad), in the public sector, in supervising committees, transportation, telecommunications (telephony, broadcasting, satellites, fiber optics , wireless, multimedia, networks), in the production and transportation of energy, in electrical and mechanical engineering, …. From the giant electric power station to transoceanic photonic data links, via the microprocessor, the electrical engineer is required to study all aspects of the operation of electricity: Design and delivery of electrical power networks, telecommunication satellites, fiber optic cables for intercontinental data links; man-machine interfaces, such as speech recognition; modeling and automation of industrial processes; Design and production of microelectronic circuits; Development of renewable energies; Development of still growing scope of microprocessors; Activities in the biomedical field, where the electrical engineer is a true partner of the doctor; Business computerization and telematic networks (Internet, Intranet and fast networks). Access to further studies The Master’s degree in Electrical Engineering can lead to postgraduate studies in order to specialize, do further training or research: either by completing another Engineering Master’s degree, at the University of Mons or any other European university, e.g. in Quality Control and Management, Industrial Risks and Operational Safety, Transportation Management, Master in Business Administration, etc. or by conducting a PhD thesis in engineering sciences possibly with the support of research clusters of the Faculty and the University of Mons. Mode of study: Full time [-]

Master in Energy Innovation

KTH Royal Institute of Technology
Campus Full time 2 years August 2017 Sweden Stockholm

There are five joint Master's programmes in Energy Innovation offered at KTH through KIC InnoEnergy. All programmes are in the field of sustainable energy and give a rare combination of engineering and entrepreneurship. The programmes deliver [+]

Masters in Energy Engineering. There are five joint Master's programmes in Energy Innovation offered at KTH through KIC InnoEnergy. All programmes are in the field of sustainable energy and give a rare combination of engineering and entrepreneurship. The programmes deliver cutting-edge knowledge in fields crucial to meeting today’s global energy challenges and enables you to study at two universities in two different European countries, receiving a double degree. KIC InnoEnergy has created seven Master's programme joint between European top universities. Five of these programmes are partially hosted by KTH. - Energy for Smart Cities (SMCS) - Environomical Pathways for Sustainable Energy Systems (SELECT) - Nuclear Energy (EMINE) - Renewable Energy (RENE) - Smart Electrical Networks and Systems (SENSE) Energy for Smart Cities (SMCS) The programme is ideal for graduates who are fascinated by energy technology and interested in environmental and socio-economic factors, as well as the electrical and thermo-mechanical aspects. It focuses on end-users of the electrical value chain; the citizen, the company or the city. During your first year, electrical and mechanical engineering courses are combined with general socio-economic, but still energy-related, subjects. An integrated project is also included. Your second year continues with a Master’s degree project and some elective courses, both general, broadening and option specific. The programme also organises a summer school to sharpen participants’ entrepreneurial skills in the energy sector. It includes soft skills such as team-building, networking, leadership, entrepreneurship and intercultural communication skills, all fuelled by interesting conversations with professionals from the energy industry, consultancy firms and municipalities. Environomical Pathways for Sustainable Energy Systems Sustainable energy services is one of the key issues for humanity, considering the complete environmental footprint for the services delivered. The programme starts from the concept of basic renewable energy sources (sun, wind, geothermal) and considers the pathways towards a future sustainable energy system. The curriculum rests on a strong foundation in thermal sciences, emphasising the thermodynamic tools of exergy and thermoeconomic analysis. The programme is operated by a consortium consisting of seven universities and their associated industry partners. It offers extended industrial contacts integrated throughout the whole programme, especially as part of internships and seminars/workshops. The curriculum is jointly offered with teacher mobility for certain common lectures, but also remote teaching by specialist teachers. The programme offers modern and interactive learning material including virtual workshops which enhances the student learning process. Each year a kick-off and a spring seminar bring together first and second year students from all partner universities. These events give the students the possibility for networking and group discussions in an international setting. Nuclear Energy (EMINE) As a significant contributor to energy supply security and diversity, the nuclear industry is a key component of EU energy policy. For example, the price of nuclear electricity is competitive and predictable, and carbon emissions are low and comparable with the best renewable. Nuclear energy is also a potential low-carbon substitute for fossil-fuel-based combined heat and power production. The programme will help provide the industry, which already employs around 400,000 people in Europe, with the highly-qualified engineers required to meet the ambitious nuclear expansion plans that many countries are now drawing up. As a student, you receive the high-level technical education required to master the engineering complexities of nuclear power generation, as well as business training related to innovation issues and energy management. The programme thus helps you integrate the technical aspects of the nuclear industry with key political, economic and social issues. The uniqueness of the programme lies in the involvement of its industrial partners. Four major players of nuclear energy, AREVA, EDF, ENDESA and Vattenfall, take active part in the master programme. The CEA is also actively involved in EMINE, thus contributing its expertise as one of the most important research centres in nuclear energy in Europe. Renewable Energy (RENE) Thanks to the strong partnership between universities, innovation centrers and energy companies, the programme will provide you with a holistic understanding of the renewable energy field. You will gain state-of-the-art knowledge and expertise in fundamental renewable energy disciplines covering the value chain from power generation to storage and transmission. Mobility is a key part of the KIC InnoEnergy educational and innovation strategy. The programme offers you the opportunity to study in two top technical universities and a business school, in a friendly and multicultural environment, and the opportunity to carry out the Master's degree project through an internship at leading companies in renewable energy. Smart Electrical Networks and Systems (SENSE) The programme focuses on understanding, modelling and analysing the principles behind electric power generation, transmission, distribution and utilisation on a broad scale. Topics range from the design, operation, control and monitoring of individual components to national power systems in their entirety. The programme gives you a highly relevant and advanced education within the smart grid concept. Smart power grids are the electrical power system of the future. They operate in accordance with many of the key requirements that a sustainable energy system must meet – capacity, decarbonisation, efficiency, flexibility, reliability and sustainability. Existing technologies make up the bulk of the course content, but strong emphasis is also given to novel and innovative technologies that may stimulate the evolution of existing power grids into a ‘Smart Grid’. The innovation process itself, plus the route towards new business development in the electric power area, is addressed. [-]

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 Appli­cations of Natural Sciences

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

Application of Software Engineering | Mathematical Informatics | Mathematical Engineering | Applied Mathematical Stochastic Methods | Mathematical Physics | Nuclear Engineering | Diagnostics of Materials | Dosimetry and Applications of Ionising Radiation | Experimental | Nuclear and Particle Physics | Physics and Technology of Thermonuclear Fusion | Computational Physics | Solid State Engineering | Laser Technology and Electronics | Optics and Nanostructures | Nuclear Chemistry | Radiological Physics [+]

Masters in Energy Engineering. Field of Study - Application of Software Engineering - Mathematical Informatics - Mathematical Engineering - Applied Mathematical Stochastic Methods - Mathematical Physics - Nuclear Engineering - Diagnostics of Materials - Dosimetry and Applications of Ionising Radiation - Experimental Nuclear and Particle Physics - Physics and Technology of Thermonuclear Fusion - Computational Physics - Solid State Engineering - Laser Technology and Electronics - Optics and Nanostructures - Nuclear Chemistry - Radiological Physics Entrance Exams NON Entrance Requeirements - fully completed application form - English language certificate Level of English - TOEFL IB T 65 / TOEFL CBT 185 - B2, FCE, IELTS 5.5 Scholarship not for the first year students [-]

Master - Electroenergy and electrical engineering

International University Of Innovation Technologies
Campus Full time 2 years September 2017 Kyrgyzstan Bishkek

Graduating students must have deep theoretical preparation, allowing to conduct an analysis and synthesis of the modes of the systems of power supply of industrial objects. Magistranty must be geared-up to optimization of the modes of the systems of power supply on technical and economic criteria. Students must own a theory and practical skills of construction of devices of defence in composition the systems of power supply. [+]

Program «Optimization of the developing systems of power supply» Annotation of Programs is oriented to preparation of master's specialists-degrees in area of the systems of power supply for: research work on perfection of the systems of power supply; project-designer developments of the systems of power supply; exploitations of the systems of power supply of different objects. Tasks of preparation of master's degrees Graduating students must have deep theoretical preparation, allowing to conduct an analysis and synthesis of the modes of the systems of power supply of industrial objects. Magistranty must be geared-up to optimization of the modes of the systems of power supply on technical and economic criteria. Students must own a theory and practical skills of construction of devices of defence in composition the systems of power supply. Graduating program students must be ready to project and operating activity with the use of front-rank electrical engineering equipment and methods of his editing and exploitation and to have knowledge in area of normative-legal base of energy and to be geared-up to co-operating with energysupplying organization and with the users of electric power. List of type disciplines Energy-savings and energyaudit of enterprise Project management Modern technologies of planning of objects of the electroenergy systems Modern technologies of planning of electrical engineerings devices and wares Computer technologies of decision of tasks of power supply Energoeffektivnost' of transformation and transporting of electric power Special questions of power supply Quality of power supply Integration in the systems of power supply of settings of renewable energy Material and technical base Basis of laboratory base of department is made by universal stands, allowing to execute 27 laboratory works on the basic sections of cycle of the special disciplines and disciplines of the specialized preparation. Part of works is executed on the real electroenergy equipment and in a computer class, the specialized programs of which allow to conduct the analysis of schematics on models, to close to the real objects. Exceptional jurisdictions of graduating students: good preparation in area of the systems of power supply, due to organization production and preddiplomnoy practical worker on the proper enterprises of Kyrgyzskoy of Republic; preparation in area of the off-line systems of power supply and their optimization, including with the use of local renewable energoresursov; preparation in area of some new areas of elektrotekhnologii, related to scientific directions of department of power supply of industrial enterprises. A master's degree has a broad mind and geared-up to the decision of the followings professional tasks: formulation of tasks and programs of research works, development of methods of theoretical and experimental researches, their leadthrough, treatment and generalization of results of researches; development of perspective projects of power supply of objects of the different setting; leadthrough of examination of the offered project-designer solutions and new technological decisions. [-]

Master in Petroleum Chemistry and Refining

Siberian Federal University
Campus Full time 2 years October 2017 Russia Krasnoyarsk

This Master’s degree program is designed to prepare graduates with a range of skills, including engineering and management. It is focused on providing theoretical knowledge of modern and challenging technologies in petroleum chemistry and refining. Moreover, the program is aimed at preparing specialists in the field of exploitation, research and development of technologies involved into petroleum production and refining processes. [+]

Masters in Energy Engineering. This Master’s degree program is designed to prepare graduates with a range of skills, including engineering and management. It is focused on providing theoretical knowledge of modern and challenging technologies in petroleum chemistry and refining. Moreover, the program is aimed at preparing specialists in the field of exploitation, research and development of technologies involved into petroleum production and refining processes. By the end of the program students will have: Profound professional knowledge of petrochemical and oil refining processes; Proficiency in the basic equipment setting and optimization of existing technologies; Skills of modeling technological processes; Practical management skills. Partners of the School of Petroleum and Natural Gas Engineering are Rosneft, Gazprom, the Siberian Branch of the Russian Academy of Science and others. Key Courses: System modeling of chemical-engineering processes Petrochemicals production technologies Industrial Catalysis Oil and gas machinery modeling and optimization The processes of deep oil refining A Master of Chemistry degree and diploma Career prospects: this Master's program is designed for current and future employees of oil companies. Moreover, the program provides students a means of promotion. Career opportunities: having a Master's degree in Chemical Sciences, you can get a position in one of the largest public or private refineries and petrochemical plants, such as Rosneft, Gazpronef etc. Research career: the Master’s degree holders can continue their education in order to get PhD at Siberian Federal University. Entry requirements: BSc or MSc degree in Engineering, Chemistry or Physics (transcript of records), good command of English (certificate or other document) Accommodation: On-campus accommodation is available in double and triple-occupancy rooms (€ 20 per month). Practicalities: Airport transfer and invitation letter for a Russian study visa are provided by the University. [-]

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. [+]

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

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. [+]

Masters in Energy Engineering. 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. [-]

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 Engineering in Energetic Concepts

University of Maryland, A. James Clark School of Engineering
Campus Full time Part time 1 - 5 years September 2017 USA College Park + 1 more

Energetics is a branch of the physical science of mechanics, which deals primarily with energy and its transformations. Energetics research is the underpinning of the development of explosives and propellants. [+]

Masters in Energy Engineering. Energetics is a branch of the physical science of mechanics, which deals primarily with energy and its transformations. Energetics research is the underpinning of the development of explosives and propellants. Energetics has clear applicability to military R&D, including the development of explosives technology, undersea weapons, and pilot ejection devices. Other applications are in space exploration, fire suppression, anti-terrorism, and cartridge-actuated devices such as door openers and automobile airbags. Admission Requirements: Full admission as a degree seeking student requires the following prerequisites: A bachelor's degree, GPA of 3.0 or better, in engineering; Civil and Environmental, Mechanical, Chemical and Biomolecular, from an accredited institution. Courses in mathematics (Calculus I, II, III, & Differential Equations), and Thermodynamics, Fluid Mechanics, and Heat Transfer are required to be considered for admission. Completed applications are reviewed and considered for admission on a case-by-case basis. [-]