Part time Master's Degree in Energy Sciences

Find Part time Masters Programs in Energy Sciences 2017

Energy Sciences

A masters refers to the completion of a graduate study program that prepares students to further their knowledge of a specific subject or advance their careers. The majority of masters are granted by state or public universities.

An MSc in Energy Sciences takes a fresh look at solutions for our growing energy deficit and how best to combat that whilst maintaining society, economy and the environment.

Request Information Part time Masters Degrees in Energy Sciences 2017

Read More

Masters of Management in Energy

A. B. Freeman School of Business
Campus 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. [+]

Best Part time Masters in Energy Sciences 2017. 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 Energy Conversion and Management

Offenburg University
Campus 3 - 4 semesters October 2017 Germany Offenburg

Regardless of the energy topic, the professors at Offenburg University of Applied Sciences have it covered. Many of our lecturers work for global energy companies, engineering services or consulting firms. Through [+]

Master in Energy Conversion and Management Language of instruction: English (first semester), English and German (from the second semester on) Regardless of the energy topic, the professors at Offenburg University of Applied Sciences have it covered. Many of our lecturers work for global energy companies, engineering services or consulting firms. Through lectures and discussions, students learn all about the current hot topics in the energy sector. Studying Energy Conversion and Management means, first of all, developing comprehensive expertise in energy systems and their management, but also taking the relevant economic, social, and political environments into consideration. Graduates of our program, with its international focus, will be well prepared for leadership positions around the globe.... [-]


Master of Advanced Engineering (Energy and Sustainability)

Monash University Malaysia
Campus Part time 1 - 2 years February 2017 Malaysia Selangor

The Master of Advanced Engineering (Energy and Sustainability) is designed for working engineers and engineering graduates with an ambition to lead. This program is ideal for those who aspire for career advancement in the competitive global environment. [+]

Best Part time Masters in Energy Sciences 2017. Master of Advanced Engineering (Energy and Sustainability) Why study a Master of Advanced Engineering (Energy and Sustainability)? The Master of Advanced Engineering (Energy and Sustainability) is designed for working engineers and engineering graduates with an ambition to lead. Addressing the pertinent demands in sustainable energy development, the course guides students to greater applicable knowledge in this area of specialisation and to succeed in complex problem solving methods. This program is ideal for those who aspire for career advancement in the competitive global environment. Areas of study Students will acquire an advanced understanding in energy and sustainability and the ability to develop solutions to complex engineering problems. Students will study core units in engineering leadership and engineering analysis to strengthen their abilities in critical reasoning, innovation and strategic thinking. Apply advanced energy and sustainability based knowledge in an engineering context Employ energy and sustainability based techniques to solve complex problems, design engineering solutions, and evaluate potential designs to identify optimal solutions Research, investigate and critically appraise current developments and research directions, and identify future directions for energy and sustainability Demonstrate a commitment to uphold code of ethics and established norms of professional engineering conduct Communicate information effectively to industry and wider community Demonstrate knowledge of team dynamics and leadership, and function effectively as an individual and in diverse engineering teams Select and apply appropriate resources and modern engineering tools to systematically manage systems and progress knowledge Employ energy and sustainability techniques into all phases of engineering project work, including business planning and financial management. Research option This program offers a research pathway option as an alternative route for students to progress from a coursework master’s program into a PhD program. The research option requires the recommendation of the Associate Head of School (Research Training) and approval from the Faculty/ MIGR (Monash University Institute of Graduate Research). Course structure You will complete eight units (48 credit points) as follows: Core units Advanced Engineering Data Analysis (ENG5001) Engineering Entrepreneurship (ENG5002) Major units Energy Conservation and Management (MEC5885) Sustainable Energy Technologies (MEC5886) Energy Efficient Lighting (ECE5885) Principles and Practices for Sustainable Development (CHE5885) Elective units Environmental and Air Pollution Control (MEC5887) Smart Grids (ECE5886) Minor project (12 credit points) (ENG5881) Entry requirements Minimum average of 70% in a 4-year Bachelor of Engineering degree from a recognised tertiary institution, or Minimum average of 65% in a 4-year Bachelor of Engineering degree from a recognised tertiary institution with 5 years of relevant working experience. A Curriculum Vitae and a 300-word Statement of Purpose is required. A phone interview may be requested, or Minimum average of 70% in a 3-year Bachelor of Engineering degree from a recognised tertiary institution with 2 years of relevant working experience, and having fulfilled Monash University’s English language proficiency entry requirements Duration The Master of Advanced Engineering degree can be undertaken over one year of full-time or two years of part-time study. Intakes for 2016 February and July Fees In 2016, annual tuition fees for this course are: RM 48,000 for Malaysian students RM 52,800 for international students. Once-only fees Application - RM 100 Registration - RM 200 Per-semester fee General amenities - RM100 Visa application fee for new international student Indonesia - RM 2,840 Other countries - RM 2,008 How to apply Applications must be submitted to the Admissions Office using a completed application form, accompanied by relevant certified copies of academic transcripts and a non-refundable application fee of RM 100. [-]

ME Energy Systems Engineering

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

The ME in Energy Systems Engineering prepares graduates to meet the engineering, economic and environmental challenges facing the energy systems of developed and developing countries. [+]

ME Energy Systems Engineering Graduate Taught (level 9 nfq, credits 120) The ME in Energy Systems Engineering prepares graduates to meet the engineering, economic and environmental challenges facing the energy systems of developed and developing countries. Graduates of this programme gain a comprehensive understanding of the complex multi-disciplinary and often conflicting issues that arise in the search for effective solutions. Graduates will also be capable of working anywhere in the world at an advanced technical level or as a professional engineering manager. Participants will receive a broad education which is built on strong theoretical foundations but retains a strong focus on real-world applications. This 2 year Masters includes a 6-8 professional work experience internship. Graduates will gain a strong understanding of the complex multi-disciplinary and often conflicting issues that arise in the search for effective solutions to the energy challenges. This Masters is professionally accredited and teaching is provided by academic experts drawn from all five UCD Schools of Engineering and from other disciplines. Candidates who have already completed a 4-year professional engineering bachelor degree may be eligible for recognition of prior learning, enabling them to complete this programme over 12 months. 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 (Energy Systems) is designed as a “Second Cycle” (level 9) degree programme for graduates who have already completed a “First Cycle” honours (level 8) engineering degree of at least 3 years duration. It is aimed at those who require a recognised professional qualification in Energy Systems Engineering. Graduates with an honours degree in a mathematically-based science subject area may be eligible to take a tailored 2-year version of the programme, thereby enabling them to become professionally qualified engineers. Course Description The ME programme prepares engineers for work in designing and developing future energy systems and aims to deepen understanding of the interactions between these systems and the environment and energy policy, taking account of economic factors. The scope of the programme includes analysis of global energy systems, use of finite natural resources and the impact on climate. It focuses on renewable and other energy sources such as wind, wave, nuclear and solar power and on the conversion, storage and transmission by electrical and other means. The programme will also address the efficient use of energy in buildings, transport and industrial processes, together with the study of other topics such as carbon sequestration. Career Opportunities Participants of this ME Energy Systems programme will be equipped with the skill set and knowledge vital for crucial roles in research, design and development in companies in the energy sector. Graduates from this programme have obtained jobs in a wide variety of organisations in Ireland and further afield, the majority in the energy sector. Perspective employers include: ESB International (Dublin), Commission for Energy Regulation (Dublin), Airport Authority, Intel Ireland Limited, Dalkia Ltd (Dublin), Accenture (Dublin), Dimplex Renewables (Irl), Enercon GmbH (Ireland and Germany), Zenith Technologies (Cork), ConocoPhillips (Cork), Imtech (UK), MCS Kenny (UK), Sellafield Ltd (UK), Schletter UK Ltd, Schwenk Zement (Germany), KBR (UK), Capula Ltd (UK), Eclareon (Spain), Dynapower LLC (USA), Sea Breeze Power Corp (Canada), KBR (Australia), and Independent Market Operator (Perth, Australia). Significant numbers of graduates have also decided to pursue further study to PhD level, at UCD and elsewhere. Fees, Funding and Scholarships ME Energy Systems (T164) Full Time EU fee per year - € 7490 nonEU fee per year - € 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. Professional Accreditation The UCD ME (Energy Systems) degree programme is fully accredited at Masters level by Engineers Ireland and the programme has been awarded the EUR-ACE® Label as a Second Cycle Accredited European Engineering Programme under the EUR-ACE Framework of Standards for Accreditation of Engineering Programmes. Entry Requirements A 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 Gavin Hickey, Energia. I chose UCD for its superior facilities, innovative research and academic credentials. This Masters is well suited to anyone looking to enhance their knowledge of the Energy sector an exciting area of massive economic growth and change. The course takes a detailed look at the current energy system and the potential steps that can be taken to reduce its impact on the environment. A wide range of modules are offered which looks at everything from energy economics and policy, to power systems operation, all of which provide an in-depth understanding of the energy market. An understanding of these areas is an extremely attractive quality to employers both in Ireland and abroad. An additional benefit of this course is the 6-8 month internship organised by UCD which gave me the opportunity to work in Energia. During this time, I was able to apply my technical knowledge in a practical setting and enhance my engineering and professional skills. Since finishing the Master’s, I have taken up a full-time position with Energia, the majority of my classmates have also secured jobs. I would strongly recommend the Energy Systems Masters to anybody looking to pursue a career in the energy sector. *Courses will remain open until such time as all places have been filled, therefore early application is advised [-]

Executive Master in Energy and Resources

Hamad bin Khalifa University
Campus 16 months September 2017 Qatar Doha

Hamad bin Khalifa University’s Executive Master in Energy and Resources offers an innovative educational approach to the field of energy and resources (E&R) by integrating the disciplines of geopolitics, public policy, technology, finance, management, and strategy. This 16-month interdisciplinary program is designed for the experienced and ambitious professional. It brings together leading experts from multiple... [+]

Best Part time Masters in Energy Sciences 2017. Executive Master in Energy and Resources Hamad bin Khalifa University’s Executive Master in Energy and Resources offers an innovative educational approach to the field of energy and resources (E&R) by integrating the disciplines of geopolitics, public policy, technology, finance, management, and strategy. This 16-month interdisciplinary program is designed for the experienced and ambitious professional. It brings together leading experts from multiple disciplines and is offered in partnership with Georgetown University, Texas A&M University, and HEC Paris. Successful participants will graduate with an Executive Master’s degree from HBKU and will be eligible to receive a certificate of completion from each of HBKU’s partner universities: Georgetown University, Texas A&M University, and HEC Paris. Admissions Requirements Applicants seeking admission to the Executive Master in Energy and Resources Program must have a bachelor’s degree from a recognized institution with significant professional and leadership experience and strong proficiency in English. [-]

Master in International Energy

Sciences Po
Campus 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. [+]

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 Energy Informatics

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

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

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

Master in Global Energy Transition and Governance

Centre international de formation européenne (CIFE)
Campus 1 year October 2017 France Nice Germany Berlin + 1 more

The programme offers a unique, multidisciplinary approach which distinguishes it from other Master’s courses in the field of energy studies: It analyses the links between the different levels of energy governance, from an international to a local level, offering problem-focused learning at the crossroads of theory and practice. [+]

Master in Global Energy Transition and Governance The Master in Global Energy Transition and Governance is targeted at students who have completed their undergraduate studies. Its objective is to give a deep understanding of the complexity of the current energy transformations in Europe and worldwide. The programme takes place in Berlin and Nice. The programme offers a unique, multidisciplinary approach which distinguishes it from other Master’s courses in the field of energy studies: It analyses the links between the different levels of energy governance, from an international to a local level, offering problem-focused learning at the crossroads of theory and practice. The one-year Master’s programme stretches over four terms and takes place in two study locations: Nice and Berlin Students who successfully complete the programme acquire 90 ECTS credits. The programme is structured into four terms: The first term (October-December) in Nice encompasses classes on the basics of the four energy modules (International energy governance, Economic energy governance, the EU energy governance and Energy and territories). Each module is complemented by seminars dealing with current energy issues. An academic or professional expert is invited for each event. For their second term (January-March) students move on to Berlin where teaching in the four modules continues in the form of workshops. Each module organises a half-day workshop with an expert. Students prepare the workshops in group work delivering papers on themes linked to the topic of the seminar (climate negotiations, energy stock exchange, the role of the EU interconnections in the European energy market, the EU funds and the territorial energy policy). To better understand the local energy challenges in the framework of the German Energy Transition Field, visits will also be organised in co-operation with local institutions and companies. Another focus of this term will be put on the methodology classes, one dedicated to the research work and the Master’s thesis, the second one to project management. In April students return to Nice. The third term (April-June) aims at deepening their knowledge on the four energy modules. A special focus is also given to the methodological support for the students’ work on their thesis including individual meetings with the academic supervisors. In the two simulations the participants will forge their negotiation techniques with regard to the construction of wind farms at local level and work out of a strategy for an international energy cooperation. Written and oral exams in June will conclude this term. From July to August students will work on their Master’s thesis. All along the summer, supervisors will be at their disposal to follow up their work. The defence of the students’ Master’s thesis will take place in Nice in mid-September. Admission requirements The Programme is targeted at students who have completed their undergraduate studies. Language requirements Candidates must have an active, good knowledge of English. Registration procedure Candidates must submit a registration dossier to the IE•EI secretariat. They can either apply via the online application form (apply online here) or send the application form (download the application form here) by email or postal mail. The application form must be completed, signed and accompanied by the following documents (in English): • Curriculum Vitae • Letter of Motivation • Copy of your original University degree(s) + certified copy of the English translation • Transcript of records + certified copy of the English translation • List and summary of research papers written as part of your University degree(s) • Two letters of recommendation written in English preferably by recent professors or supervisors, to be sent in sealed envelopes or by e-mail scanned • Passport-size photograph • Documents certifying adequate knowledge of the required languages [-]

Executive Master of Management in Energy

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

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

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

Master in Energy Engineering

Technical University of Ostrava
Campus 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. [-]

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 ... [+]

Best Part time Masters in Energy Sciences 2017. 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. [-]

MASTER ENERGY & SOLAR BUILDINGS

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

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

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

Master in Photovoltaics and Solar Energy Technology

Saint Petersburg Electrotechnical University
Campus 2 years September 2017 Russia St. Petersburg

The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. [+]

Best Part time Masters in Energy Sciences 2017. The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. Students get knowledge of underlying physical principals and material science aspects of photovoltaics, technology and metrology of solar modules, equipment, design and maintenance of solar power plants. Special attention is dedicated to Silicon photovoltaics, including the most efficient HIT (Heterojunction with Intrinsic Thin layer) structures. Program curriculum includes the following advanced courses: Fundamentals of solid state physics; Fundamentals of Photovoltaics; Computer Simulation in Electronics; Metrology of photovoltaic cells and modules; Diagnostics of materials and structures in microelectronics and photovoltaics; Optical and spectroscopic methods of diagnostics in photovoltaics; Technology of silicon solar modules; Laser technologies and processing in manufacturing of solar modules; Microprocessors and microcontrollers ; Equipment and automation of solar power plants; History and Methodology of Electronics. Students have access to the most modern and sophisticated technological and metrological equipment for solar modules production and testing at the Research and Development Center for Thin-film Technologies in Energetic under Ioffe Institute. Using these facilities they carry out scientific research and get skills of practical work with real metrological instruments and technological apparatuses. In 2015 program “Photovoltaics and Solar Energy Technology” successfully underwent general assessment and was awarded EUR-ACE® label by ENAEE - European Network for Accreditation of Engineering Education. Department of Quantum Electronics and Optoelectronic Devices is one of the oldest and the most renowned departments in the University. It was established in 1931, more than 80 years ago. The research activity of the Department is focused on semiconductor and thermoelectric photodetectors, infrared systems, lasers and laser technologies, optoelectronic devices for remote sensing and photovoltaics. Many outstanding Russian scientists and engineers graduated from the Department of Quantum Electronics and Optoelectronic Devices. The most renowned of the Department’s alumni is the laureate of the Nobel Prize in Physics (2000) Prof. ZhoresAlferov, who started his brilliant scientific career in the laboratories of the Department. Programme: 120 ECTS credits, full-time study (2 years), Master’s Degree Eligibility: candidates must hold a Bachelor's Degree in the corresponding field Scholarship: scholarship covers the tuition fee and some study materials An academic year includes 2 semesters beginning on 1st September and 10th February, Winter holidays - 2 weeks, Summer holidays - 2 months (July, August). Master’s Thesis defense is in June. Educational programs of «LETI» are constantly modernized, following the principle «Training through research». Graduates of our university receive new, profound knowledge and practical skills of work. [-]

Master in Smart Mobility and Energy Systems (IMES)

Ostfalia University of Applied Science
Campus Part time 3 - 7 semesters October 2017 Germany Wolfenbüttel

The accredited master’s degree program “Smart Mobility and Energy Systems” is primarily directed towards graduates of a bachelors degree program oriented towards Electrical Engineering or Information Technology, that are striving for a career as a high skilled professional or manager... [+]

The accredited master’s degree program “Smart Mobility and Energy Systems” is primarily directed towards graduates of a bachelors degree program oriented towards Electrical Engineering or Information Technology, that are striving for a career as a high skilled professional or manager. Fields of Activity and Application Typical areas of application are technically demanding professional and leadership tasks as project, group, or department leader in respect to application oriented research, advanced development, product definition and development, system integration, project planning, quality management, technical distribution: In engineering offices, midsize and large industrial companies, For service companies, business consultants, In civil service, especially in the fields: Traffic Engineering, Automotive Engineering, Automation Engineering, Telecommunications Technical Study Content The master’s degree program encompasses two important subject areas in its technical focus: Power supply and future mobility; two closely related fields. Smart mobility concepts are relying on future expansion of electric mobility. This in turn is only sensible to implement with the environmental and economical promotion of energy transition. With its orientation towards electric mobility and decentralized energy concepts, the masters degree course teaches students advanced skills that qualify them for innovative and demanding tasks within the field of new mobility concepts. The degree course focuses on implementing systems of correlated complex functions. Courses also focus on enabling system-oriented thinking. This is of particular importance because aspects of system expertise are moving closer into the foreground. Companies are no longer supplying single components, but prefabricated subsystems, which, during continued development processes, will be assembled to increasingly complex complete systems. The following lectures are part of the basic courses in the program: Sensor Data Fusion Architecture of Distributed Software Systems Practicum Next Generation Networks Wireless Networks and Systems Automotive Electronics Drive Systems for Electrical Vehicles Decentralized Energy Systems and Electric Mobility Regulation of Electrical Power Supply Networks Smart Grids and Smart Metering Systems Engineering Practicum EMC Design for Testability Non-technical Course Content The programs module “Management and Law” (Management und Recht) prepares students for a later occupation as a specialist or manager in large scale development projects. The main points are basic understanding of contract and company law, personnel management, instruction and leadership of work groups as well as extended planning and control in project management. Technical Course Content As highly qualified engineers and future leaders, graduates of our Master’s program will have significantly better abilities to acquire, deepen and present technical and non-technical content than typical graduates from Bachelor’s programs. We encourage and challenge you through research papers and oral presentations, through a semester project, the master thesis, as well as integration in the teaching of bachelor courses as a tutor or lab assistant. The master thesis will be completed within one internship semester normally within the university (in exceptional cases, also in external companies) as well as abroad, if applicable. Students can apply for an omission of the tuition fees for the internship semester. The masters thesis should deal with a topic from the practice oriented research. The thesis is graded from two staff members of the faculty of electrical engineering. Formal Admission Requirements Above-average degree (overall grade 2.7 or better) Bachelor (or Diplom) degree course orientated towards electrical engineering or information technology at a German university with at least a 7 Semester period of study or at least 210 credit points (or another, at least equivalent degree course). Missing credit points can possibly be added through additional tests in subjects from the Master’s program, determined on an individual basis by the examination board. There is no limit for the actual length of previous studies A very good knowledge of the German language is required for students from non-German speaking countries. A language certificate will be required, for example the “Kleine Sprachdiplom” (corresponds to level C2) from the Goethe-Institute. Prerequisites Secure knowledge of the basics of mathematics for engineers, and electrical engineering, basic knowledge of analogue and digital circuit theory. Secure understanding of at least one high-level programing language, basic knowledge of software engineering A good understanding of technical English is required Ability to work independently under instruction Working efficiently. The challenge level is higher than in Bachelor’s programs unication. [-]

Master's Degree In Renewable Energy

Universidad Europea de Madrid (UEM)
Campus or Online Part time 9 - 10 months April 2017 Spain Villaviciosa de Odón (Madrid)

The renewable energy sector is one of the sectors with the highest sustained growth in the coming years due to increasing pollution, emission of greenhouse gases and reducing the use of fossil fuels. A growing sector that requires trained professionals and multi-purpose. [+]

Best Part time Masters in Energy Sciences 2017. The sector Renewable Energy It is one of the sectors with the highest sustained growth in the coming years due to increasing pollution, emission of greenhouse gases and reducing the use of fossil fuels. A growing sector that requires trained professionals and multi-purpose. Today, companies require candidates who combine technical training quality with essential management skills. The renewable energy sector is no exception and requires highly skilled professionals to provide management skills to their technical knowledge. For this reason, the program of the Master in Renewable Energy at the European University is completed with a strong background in management skills, project management or team leadership, which will provide students with the skills required to function competitively in the sector. WHAT YOU CHOOSE TO STUDY METHODS The European University offers the Master in Renewable Energy in 100% online mode. An arrangement that is characterized by its flexibility, exclusivity in designing educational materials and customization service to the student. METHODOLOGY MASTER IN RENEWABLE ENERGY This Master, by making a face, blended and online format offers the possibility to take part of the subject at a distance, so that students can combine their training with his personal and professional life, enjoying the unique benefits of this system to interact with peers, teachers and businesses. Methodology 100% Online One model, designed exclusively for digital learning resources and the sum of the institutions that make up the leading European network allows access to advanced digital programs, tools for self and a large network of professionals, teachers and students. A digital exclusive model. A model that meets the highest quality standards and requirements, developed and is always thinking about the real needs of those who want to continue to grow professionally, but have significant limitations of time to do it. A model that stands out for its content. The contents offered by the European University are unique and exclusive. They prepared by experts in each subject they are, in many cases, given by themselves. Each resource has been specifically designed thinking about what kind of teaching strategy required for each type of content and taking advantage of the latest technological advances. Therefore, you can find eBooks, virtual classrooms, interactive whiteboards, videos, simulators, conferences or decision trees, among others. A model that stands out for its evaluation systems. The online methodologies require assessment systems tailored to the needs of students. For this reason, the exclusive model for digital learning ignores the European University-face examinations. The evaluation system is continuous and progressive, so that at all times the student to meet the evolving learning. A methodology that stands out for its customization. For the European University, Methodology Online is about customization. Therefore it offers the student a team of professionals working to meet any need that may occur. A team working 24 hours in order to cover all needs. Thus, in addition to teachers that students have direct access at all times, the University has an extensive network of professionals and Assistant Program, Head of User Experience, Academic Coordinator and Program Director, among others. A multidisciplinary team that accompanies you to achieve your goal. Classroom and blended learning methodology Graduate Engineering and Architecture as well as professionals in the Renewable Energy sufficient time to continue their college experience sector, the European University presents this Master in two ways: and face blended: It is taught in small groups with direct contact the professional sector. The student can promote networking in the field without leaving the classroom. This program is complemented by technical visits to renewable energy facilities so that students can appreciate how they put into practice what they learned in the classroom. Direct contact with working professionals in the sector made up mostly of professionals with wide excellence in the field of renewable energies. Thus, teaching is very practical approaching the current reality of the techniques applied in the business world in the daily teaching of the master work. Students complete their training including professional practices in market-leading companies such as Endesa, EDP, Gransolar, Izharía Engineering and Consulting. [-]