Best Master Degrees in Energy Studies in Asia 2019
Master-level studies involve specialized study in a field of research or an area of professional practice. Earning a master’s degree demonstrates a higher level of mastery of the subject.
Earning a master’s degree can take anywhere from a year to three or four years. Before you can graduate, you usually must write and defend a thesis, a long paper that is the culmination of your specialized research.
Energy studies teach about how power demands are met. This may be through conventional means, or alternative energy sources such as wind and solar energy. Some programs might explore the development of new sources.
Students who complete a part of their degree in Asia are growing in numbers. Currently, the second and the third biggest economies are in Asia. Without limitation, students have described their time in Asia as the best experience of their lives. Today, three of the four most populated countries of the world are in Asia: China, India, and Indonesia.
Moscow State Institute Of International Relations, MGIMO
Masters’ programme “Oil and Gas Sector Economics and International Energy Policy Issues” was launched in 2007 by MGIMO jointly with an Italian university Univerità di Com
Masters’ programme “Oil and Gas Sector Economics and International Energy Policy Issues” was launched in 2007 by MGIMO jointly with an Italian university Univerità di Commerciale Luigi Bocconi which is a recognized European leader in the field of economic and business education and which co-operates closely with major world energy companies.
The Russian-Italian master’s programme “Oil and Gas Sector Economics and International Energy Policy Issues” provides a unique opportunity for Russian and Italian undergraduate students to become experts in modelling and forecasting economic development in the energy sector branches. Successful graduates will be awarded a “Master of Economics in World Energy” degree from MGIMO (U) MFA RF and a “Master (Laurea Specialistica) of Economics and Sociology” degree from the Bocconi University with appropriate national diplomas....
The MRes Low Carbon Electrical Power and Energy Technology programme provides advanced and systematic education and training in the areas of electronic science and techno
The MRes Low Carbon Electrical Power and Energy Technology programme provides advanced and systematic education and training in the areas of electronic science and technology. It has been designed to respond to the vigorous development of electric power and energy technology in China and worldwide.
The programme contains taught courses covering solar converters, wind power systems, energy storage technology and smart grids. It places a strong emphasis on hands-on experience and practical skills development. A 12-month extensive research project is required which leads to the submission of a dissertation after students have finished the taught modules.
The MRes Low Carbon Electrical Power and Energy Technology programme provides advanced systematic education and training in the areas of electronic science and technology. You will develop the understanding of state-of-the-art electrical power and energy technology, be able to research and critically evaluate trends in current technologies of energy management, sustainability, renewable energy and nuclear energy. You'll acquire skills in planning, project management and communicating complex ideas and gain experience in conducting extended research and/or developing project work....
The Master in International Material Flow Management (IMAT) program is APU’s flagship dual master degree program with the Trier University of Applied Sciences, conducted
IMAT is a dual-degree program managed jointly by APU and the Institute of Applied Material Flow Management (IFaS), an innovative research institute of the Trier University of Applied Sciences (Germany). Students will spend their first year studying at APU and the second year at the Zero-Emission Campus Birkenfeld in Germany.
The program offers integrated knowledge in engineering, economics, law and natural and social sciences. In addition to the learning goals of APU’s Sustainability Science division, IMAT offers multidisciplinary courses to prepare students to become young professionals in zero emission systems design with profound knowledge in renewable energy, integrated water resource management, and other sustainable community development areas. Students will also have the opportunity to conduct fieldwork in Japan and participate in an internship in Germany. IMAT students will have to submit a master’s thesis to IfaS in Germany. A concise summary of this thesis is to be submitted to APU in the form of a research report. Upon completion of the program, students receive two master’s degrees, a Master of Science in International Cooperation Policy (from APU) and a Master of Engineering in International Material Flow Management (from Trier University of Applied Sciences)....
National University of Science and Technology MISIS
This two-year Master’s program taught in English is designed to create an integral understanding of modern technologies used in solar energy research and development, ind
The two-year Master’s program Science and Materials of Solar Energy is designed to 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 program aims to provide modern knowledge in the field of electrical energy systems engineering and management
After completing the Master's program “Electric Grid Management”, the student will have acquired the following competencies:
Use the system concept for the critical analysis of difficult situations, work out an action strategy;
Manage a project during its entire life cycle;
Organize and lead teamwork, elaborate a team strategy that will help achieve the goal;
Apply modern communication techniques for academic and professional interaction;
Analyze and adapt to the cultural diversity in cross-cultural interactions;
Define and implement personal priorities, enhance one’s performance based on one’s self-assessment;
Formulate research aims and objectives, identify priorities, select assessment criteria.
The Master of Advanced Engineering (Energy and Sustainability) is designed for working engineers and engineering graduates with an ambition to lead.
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 you to greater applicable knowledge in this area of specialization and to succeed in complex problem-solving methods.
This program is ideal for those of you who aspire to career advancement in the competitive global environment.
Advanced Engineering Data Analysis
Energy Efficiency and Sustainability Engineering
Sustainable Energy Technologies
Energy Efficient Lighting
Principles and Practices for Sustainable Development
Environmental and Air Pollution Control
AREA OF STUDY
The program offers training students in research and production activities. The training is focused on the practical solution of tasks of electric power energy renewable
The program offers training students in research and production activities. The training is focused on the practical solution of tasks of electric power energy renewable sources operation and development of power supply systems including distributed generation.
The program is aimed at training students to become specialists of new generation owning system and fundamental knowledge of integration of distributed generation in power systems; electric energy quality; power electronics; emergency modes in electric power engineering systems; protection and control of power supplying systems including distributed generation; renewable energy; numerical and optimization methods; theory of electromagnetic field; management systems for electric machines; theory of electric networks control; power energy storage system; digital measuring systems; hydropower plants; wind power industry; control over renewable energy sources generators....
Peter the Great St. Petersburg Polytechnic University
The Master degree program has been developed to train highly qualified professionals to design, operate and maintain power plants.
The Master Degree Program in Power Plant Engineering comprises a wide range of power engineering subjects aimed at theoretical and practical training.
The program is implemented with the participation of the leading professors of St. Petersburg State Polytechnic University and other leading Russian and foreign universities. All lectures and seminars are delivered in English.
Objective of the Program
The Master degree program has been developed to train highly qualified professionals to design, operate and maintain power plants.
Upon graduation, the participants will become proficient in the field of the modern energy sector. Our graduates of “Power Plant Engineering” Master Program are highly-trained professional engineers capable of the analysis, evaluation, and implementation of the state-of-the-art technical solutions aimed at improving the energy efficiency of power plants. Our graduates develop practical skills and professional competencies in the design and operation of power plants, including construction, commissioning, start-up and management; and the capability to simulate and analyze the operation of power plants with the use of the up-to-date sophisticated software....
Supported by the College of Petroleum Engineering, which has been leading the petroleum academy for the past six decades, our Petroleum Engineering Master Program in Engl
Supported by the College of Petroleum Engineering, which has been leading the petroleum academy for the past six decades, our Petroleum Engineering Master Program in English enjoys an incomparable status. Here over the three-year study life, students’ growth could be guaranteed by our first-class facilities, elite faculties and the traditional spirit of always pursuing excellence. The program aims to cultivate students’ professional knowledge, as well as practical abilities. Moreover, the characters of diligence, integrity, and preciseness academic attitude are also within the fostering goal. Having been the choice of an increasing number of professional talents, the Petroleum Engineering Master Program in English has been the focused attention of the college....
The Master of Planning in Urban Design, Sustainability, and Conservation, prepares students with the knowledge and skills to understand and analyze urban areas as spatial
Architect, planner, and historian, Dr. Jyoti Hosagrahar established and held the UNESCO Chair at Srishti Institute from 2014-2016. In her interview with Shagun Singh of Designwala.org, she shares her thoughts on the need for more sensitive and inclusive approaches towards urban development in Indian cities.
This program is one of the two postgraduate programs established under the UNESCO Chair in Culture, Habitat, and Sustainable Development at Srishti. The program is designed to deliver familiarity with international and national, norms and standards of heritage interpretation and management, based on the foundation of the World Heritage Convention. Furthermore, the courses will be driven towards exploring newer approaches for designing and sustaining the historic towns and centers, amidst the on-going urban development in Indian cities today....
The Hong Kong University of Science and Technology
Energy Technology research covers many areas, including sustainable technology, conventional technology, and energy efficiency and conservation. The MPhil programme aims
Working at the cutting edge of the field with top international scientists, our postgraduate programmes seek to ensure that each student:
attains an in-depth understanding of fundamental yet advanced chemical engineering topics;
exercises intellectual curiosity in probing chemical engineering subjects at the frontiers of chemical engineering;
develops skills to pursue new knowledge, both basic and applied, independently; and
engages in pioneering research in this and related disciplines.
The Department emphasizes both academic excellence and industrial relevance and, wherever possible, programmes are set in the context of local industry needs and explore the potential of creating demand for new technologies....
Vietnam is evaluated to have large amount oil & gas resources, and it is requirement stemming from the economic development that engineers shall utilize the processes
Vietnam is evaluated to have large amount oil & gas resources, and it is requirement stemming from the economic development that engineers shall utilize the processes of extracting, exploiting, processing, producing oil & gas products, especially when Vietnam joins the ASEAN Economic Community, and sign the Trans-Pacific Partnership (TPP) Agreement. There are not only domestic organizations participating in the oil & gas industry but also the international ones, which help increase the demand in the quantity and quality of the workforce.
The program Master in Petroleum Engineering aims at providing learners with:
Rich professional knowledge, comprehensive understanding about engineering and technology in the petroleum engineering industry, adapting the demand for development of scientific technology, social economy and international integration in the stage of industrialization – modernization of the country.
Capabilities to use English language in specialization fluently and master essential soft skills, i.e. management, communication, etc.
The joint master in Sustainable Energy Systems is a taught multi-disciplinary international programme suitable for applicants from engineering, architecture, planning and
The joint master in Sustainable Energy Systems is a taught multi-disciplinary international programme suitable for applicants from engineering, architecture, planning and other relevant backgrounds, intended to incorporate the latest developments not only in the international scientific field but also in the European and national regulatory and legal framework. Students will also be acquainted with the required know-how for monitoring and evaluating the energy efficiency of building systems, of buildings, of renewable and conventional energy systems and of indoor environmental quality conditions, in accordance to legal and best-practice requirements, so as to be able to carry out energy renovation, retrofitting and refurbishment projects. Furthermore, they will learn to evaluate, by means of applying standards and models, the environmental performance of buildings, as needed in order to implement the environmental labeling schemes. The Programme is designed to stimulate and encourage novel and imaginative solutions with respect to their implementation in a real market and a rapidly developing economic environment, surrounding the energy sector and the built environment. The Programme involves theoretical and hands-on learning methods aiming at producing skilled professionals who will be able to effectively enter the competitive European market of energy experts. Graduates of the programme acquire a strong qualification that assists them in the professional progress. The degree greatly enhances the employability of our graduates in public and semi-public organizations, whose work is related to the implementation of energy and environment-related legislation and to the operation of the energy market, or in the power generation, the construction and the...
This Nuclear Energy Science and Engineering specialty was founded in 1980. The aim of this specialty is training the graduate students to be the high-level professional t
Master in Nuclear Energy Science and Engineering
This Nuclear Energy Science and Engineering specialty was founded in 1980. At present, it has a teacher staff consisting of 10 professors and 1 associate professor in 6 research fields, that including Nuclear Power Plant (NPP) Performance, Safety and Reliability of Nuclear Reactor and NPP, Control and Test of Nuclear Reactor and NPP, NPP Operation and Simulation, NPP Equipments and Thermo-hydraulics of NPP.
The aim of this specialty is training the graduate students to be the high-level professional talents, mastery of the basic theory about Engineering Thermo-physics and Nuclear Energy Engineering, in the fields such as research, design, manufacture, operation and management of nuclear power engineering. The main courses included Nuclear Reactor Engineering, Advanced Heat Transfer, Mathematic Physical Method, Nuclear Power Plant, Nuclear Power Plant Components, Nuclear Turbine, Nuclear Power Plant Control, Nuclear Safety, Nuclear Power Plant Operation and Simulation, and so on....
Within the M.Tech. program in Building Energy Performance students learn to: Use state of the art tools to conduct simulations and assess building energy performance; Tac
Master of Technology in Building Energy Performance
Faculty of Technology – CEPT University
Buildings with low energy use are a social and economic imperative for India and other tropical regions that will see the largest growth in the next two decades. Energy use largely determines the environmental footprint of a building over its lifespan. Research, policy, and practice are making building energy performance an area of intellectual and professional growth. Increasingly, a new kind of professional is needed in the building design or operations team to help save energy.
Within the M.Tech. program in Building Energy Performance students learn to:
Use state of the art tools to conduct simulations and assess building energy performance.
Tackle complex technical problems and participate in a multidisciplinary environment.
Influence the design of energy-efficient buildings, while considering all building systems, architecture, and occupant health and comfort.