Top Master of Science Programs in Energy Studies in Asia 2019/2020
A Master of Science or MSc is a postgraduate degree typically in the fields of sciences and social sciences. MSc may be course-based, research-based, or a mixture of the two.
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.
The Master's degree program offers advanced education for students and young professionals holding a Bachelor's degree or academic equivalent in engineering or natural sc
Master of Science in Energy Engineering (EE)
The Master's degree program offers advanced education for students and young professionals holding a Bachelor's degree or academic equivalent in engineering or natural sciences. The topics covered during the course of studies are tailor-made on the basis of research projects and enduring experiences of Technische Universität Berlin in the MENA region. On successful completion of the program, students will graduate with an official Masters of Science degree in Energy Engineering from Technische Universität Berlin.
The application process for the next matriculation has started. The applicants should hold a BSc. degree in the fields of mechanical, electrical or chemical engineering. If you would like to apply for the MSc. Energy Engineering, please follow the instructions for the Admission Process....
The MSc Sustainable Energy Technology programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is in
The MSc Sustainable Energy Technology programme provides state-of-the-art education in the fields of sustainable energy generation, distribution and consumption. It is intended to respond to a growing skills shortage of engineers with a high level of training in renewable energy, smart grids and sustainability.
By the time you graduate, you will have a thorough understanding of sustainability standards, various renewable energies, smart grid and power electronics for renewable energy and energy use management in buildings, urban design and other areas. Research on sustainable energy technology has opened up many job opportunities in industry, government institutions and research centres....
BAS Institute, E-JUST, offers for the time being Energy Materials program in Physics. This program is designed to prepare M.Sc. students for their future career by equipp
M.Sc. students must complete at least 36 credit hours, within the following guidelines:
Course-work of 18 credit hours, including two core courses of 6 credit hours (3 credit hours each), three elective courses of 9 credit hours and a Project-Based Learning course of 3 credit hours.
Thesis-work of 18 credit hours.
M.Sc. students have to pass successfully 6 courses with three credit hours each before applying for the Thesis.
MER 501: Materials structures and defects
MER 502: Energy resources and storage: economics and environment
Students should select 3 courses of 9 credit hours (3 credit hours each). Students can select, with the aid of their academic advisors, elective courses from other science or engineering disciplines....
The purpose of the educational program "Sustainable Thermal and Energy Systems” is to prepare qualified specialists with professional knowledge, skills and abilities to s
The purpose of the educational program "Sustainable Thermal and Energy Systems” is to prepare qualified specialists with professional knowledge, skills and abilities to solve the following tasks in the field of industrial heat and power systems and social sphere:
to develop and maintain modern power engineering and heat installations;
to develop and implement promising heat-and-power systems and appropriate equipment for them;
to ensure rational use of fuel and energy resources at industrial enterprises and utilities;
to conduct a feasibility study with a justification of the priority directions for solutions of resources saving problems with a combination of centralized and autonomous power supply including the renewable energy sources usage;
to create advanced life support systems at enterprises and housing;
to develop mathematical models of studied objects for analyzing their efficiency via modern computer programs;
to ensure environmental protection.
The master programme "Oil and Gas Business" carries out the preparation of highly qualified and in-demand specialists for the oil and gas industry. Postgraduate students
The Faculty of Energy and Oil and Gas industry is a foreground faculty of KBTU because of its affiliated status with KazMunaiGas, and also its close relation with other companies of the oil and gas sector, which are partners of KBTU. They provide the university with technological, scientific, financial and other resources that promote the high quality of educational programmes at KBTU, in the oil and gas business.
The master programme "Oil and Gas Business" carries out the preparation of highly qualified and in-demand specialists for the oil and gas industry. Postgraduate students of the Oil and gas engineering department will gain a wide range of knowledge while passing through the course. Graduates can work in various areas of the petroleum industry such as exploration, drilling, production and transportation of hydrocarbon raw materials, development of oil and gas fields, wells logging, and also environmental protection of the enterprises of oil and gas sector....
The goal of this program is to graduate master-level petroleum engineers who are highly qualified for a rewarding professional experience. Graduates may choose to work in
The goal of this program is to graduate master-level petroleum engineers who are highly qualified for a rewarding professional experience. Graduates may choose to work in the petroleum industry, continue on to other graduate-level degrees, or join consulting/contracting companies. Prospective students have to be motivated to seek life-long learning and professional development and be capable of becoming professionals and leaders in the global petroleum industries. (Total credit hours is 30 for these and 33 for no-theses).
To generate graduates with high levels of competence in fundamental and applied concepts of petroleum engineering.
To provide opportunities to address industrially important problems and to propose and investigate possible solutions.
To provide an environment in which students can embrace social and personal development.
To motivate the students to seek life-long learning and professional development
To enhance students recognition and understanding of the professional and societal responsibilities associated with working in the industry.
To develop computational techniques and written and oral communication skills.
To cultivate innovation and entrepreneurship through deeper understanding and advanced knowledge of the Petroleum Engineering principles and operations.
Program Learning Outcomes
The MSc in Petroleum Engineering at Heriot-Watt University is a programme of lectures and project work that encompasses a wide range of petroleum engineering fundamentals
The MSc in Petroleum Engineering at Heriot-Watt University is a programme of lectures and project work that encompasses a wide range of petroleum engineering fundamentals pertinent to the modern petroleum industry.
The programme allows students to study specific courses as well as undertake a field development project (with other students) and an individual research project. Project work provides an opportunity for ideas and methods assimilated through lectures and tutorials to be applied to real field evaluation and development design problems. The courses are applied in nature and have been designed so that a graduate is technically well prepared for, and has a sound knowledge of, the industry into which they will be recruited....
Peter the Great St. Petersburg Polytechnic University
The purpose of the Master of Science in Energy Technology degree program is to prepare highly qualified professionals capable to solve complex engineering and management
International Master Degree Program: Energy Technology
The 5 best reasons to participate in the program
The Master’s Degree Program in Energy Technology includes a wide array of energy studies aimed at the fundamental preparation and practical training.
The program is conducted with the participation of key professors of St. Petersburg Polytechnic University and other leading Russian and foreign universities.
The program contributes to the joint study of Russian students with foreign students, the opportunity to participate together in academic and extracurricular activities of SPBPU.
The program offers a unique opportunity to undertake an internship in leading Russian energy companies and a semester abroad at foreign partner University.
All lectures and examinations are conducted in English.
What sets your program apart from other programs?
King Abdullah University of Science and Technology
The Energy Resources and Petroleum Engineering Academic Program, for M.S. students, focuses on modern reservoir description, engineering, and management. Students in thi
About the program
The Energy Resources and Petroleum Engineering Academic Program, for M.S. students, focuses on modern reservoir description, engineering, and management. Students in this program receive broad training in basic scientific concepts and thermodynamics, geology, geophysical characterization, and reservoir engineering. Our students participate in scientific research activities that may include mathematical analyses, computational modeling, experimental research and/or field studies.
If you are visiting as a potential applicant to our program, we can confidently say that the 'KAUST' experience is a truly unique opportunity for brilliant M.S. students who share the dream to make a difference in our field and in the world. We hope you will consider KAUST and our program....
The MSc Global Energy and Climate Policy (GECP) is the first Master's programme to jointly address the issues of climate and energy policy in an interdisciplinary fashion
MSc Global Energy and Climate Policy
Duration: One calendar year (full time). Two or three years (part-time).
Minimum Entry Requirements: A minimum upper second class honours degree (or equivalent). Candidates with a lower class degree but degree-relevant work experience may be considered.
Start of programme: September intake only
Mode of Attendance: Full Time or Part Time
Who is this programme for?
The use of energy – electricity generation, transportation, heating/cooling and industrial consumption – is the most important driver of climate change by far. Effectively addressing this urgent global challenge, therefore, requires transformational changes in the ways we produce, consume and govern energy. More than two decades of political contestation have shown that a supportive policy environment – meaningful and consistent domestic laws and regulation underpinned by ambitious international treaties – is the only way to affect these changes, develop alternatives to emissions-intensive fossil fuels and transition economies around the world onto a secure, low-carbon and climate-friendly footing....
The aims of the MSc in Oil, Gas and Energy Engineering are to prepare graduate students to succeed in a constantly growing, demanding, and highly competitive technologica
Duration (years): 1.5 years
Qualification Awarded: Oil, Gas and Energy Engineering (MSc, 1.5 years or 3 semesters)
Level of Qualification: 2nd Cycle (Master’s Degree)
Language of Instruction: English
Mode of Study: Full-time and Part-time are both possible.
Minimum ECTS Credits: 90
Profile of the Programme
The aims of the MSc in Oil, Gas and Energy Engineering are to:
Prepare graduate students to succeed in a constantly growing, demanding, and the highly competitive technological world;
Provide specialization and extensive knowledge in the area of oil and gas energy engineering;
Create an academic environment conducive to learning new oil and gas energy engineering concepts and technologies;
Introduce graduate students to research on advanced oil, gas and energy engineering topics;
Cultivate analytical skills and critical thinking;
Promote engineering ethics and moral practices.
MSc Energy Systems and Thermal Processes is designed to equip graduates and practising engineers with an in-depth understanding of the fundamental issues of energy thrift
MSc Energy Systems and Thermal Processes is designed to equip graduates and practising engineers with an in-depth understanding of the fundamental issues of energy thrift and environmental consequences of the irrational use of energy resources in the industrial and commercial sectors. This degree programme is one of a set of postgraduate programmes designed by Cranfield University and offered at Muscat University. This is a dual degree programme, leading to the award of a Cranfield University degree and also a Muscat University degree.
The MSc in Energy Systems and Thermal Processes aims to:
Furnish students with the up to date technical k...
The joint master of Mediterranean initiatives on renewable and sustainable energy (JAMILA) is a joint project between eight universities, three of which are from the Euro
The joint master of Mediterranean initiatives on renewable and sustainable energy (JAMILA) is a joint project between eight universities, three of which are from the European countries & five from the Mediterranean countries with the financial support of European Union (EU) under the umbrella of TEMPUS projects.
This project aims at establishing a joint master program (curricula reform) in Renewable Energy and Sustainability (MRES) that should serve the market needs of these courtiers to effectively utilize the renewable energy resources and to help support the sustainability of these sources and local environment.
The degree of Master of Science in Nuclear Engineering (M.Sc. in NUCE) is awarded for candidates who successfully complete the taught courses, field trips, and thesis req
Khalifa University of Science and Technology offers Graduate Research / Teaching Assistant (GRTA) scholarships to support qualified international students enrolled in graduate programs.
The scholarship provides generous remuneration and benefits that include:
Full coverage of tuition fees.
Medical insurance coverage for students under the Khalifa University visa.
Support to attend international research conferences.
The indicative monthly stipend for GRTA Scholarship is as follows (subject to change).
We will start taking applications starting November 1st, 2018 for the next intake in September 1st, 2019.
The degree of Master of Science in Nuclear Engineering (M.Sc. in NUCE) is awarded for candidates who successfully complete the taught courses, field trips, and thesis requirements of the program. The program is targeted for students with various backgrounds, such as graduates of Mechanical Engineering, Electrical and Computer Engineering, Physics, Chemistry, Material Science, Mathematics or other pertinent specializations. The program starts with common core courses that cover essential Nuclear Engineering topics....
Our mission is to provide a platform for life-long learning while also emphasizing the importance of interdisciplinary approach, ethical conduct, and health, safety &
MSc in Petroleum Engineering
To become a leading international center of excellence in education, training, research and professional service dedicated to serving the competence, training and technology development needs of the petroleum industry, in general, and ADNOC and other allied sponsors, in particular. Our mission is to provide a platform for life-long learning while also emphasizing the importance of interdisciplinary approach, ethical conduct, and health, safety & environmental issues.
Exciting Research in Petroleum Engineering
Prevention of micro-annulus formation & improving mechanical properties and numerical simulation
Analysis and selection procedure of drilling bits
Downhole flow assurance through electromagnetic method
Water production control in fractured formation
Development of corrosion inhibition for sub-sea environment
Development of threshold polymeric scale inhibitors
Use of gas lift system to inject scale and corrosion inhibiting chemicals
Borehole collapse and hollow cylinder tests on rock samples
Borehole stability analysis
Managing scale deposition, prevention, inhibition and dissolution
Asphaltene, paraffin and wax deposition challenges in mature oil & gas fields