Compare 72 MScs in Energy
A Master of Science is a post-secondary degree that can be obtained once you have completed a bachelor’s degree program. It takes approximately two years of full-time study and increases your marketability as a prospective employee significantly.
What is a MSc in Energy? The production and use of energy is an ever-growing field, and as such requires skilled individuals that can grow with it. An MSc in Energy generally focuses on energy management as well as energy sustainability. It typically covers topics such as finance, technology, and quantitative measurement methodology in the energy field, as well as technical details like energy production and maintenance of those systems.
Working toward a MSc in Energy offers you the opportunity to learn more than just those skills related to the professional field, such as risk assessment. It generally also offers skills that can assist you in your personal life, including time management and organization.
The cost of a degree program depends upon the school you choose. Contact your school to get a rough estimate of the expense involved and what that expense covers.
Careers in energy grow and change as the market and technology changes, but a MSc in Energy can allow you to go in any number of directions. You should be qualified for a myriad of positions in the private sector at an energy company, such as sales and marketing director, design professional, accounting and finance lead and more. Alternatively, you could choose to go into government work as a planning and zoning administrator for energy resources. You could also seek to freelance as a writer or educator or go into business for yourself as a consultant.
A MSc in Energy is available wherever you are. If your local college or university doesn’t offer the program you seek, an online program is an excellent alternative. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
72 Results in Energy Filter
This postgraduate course is a two-year, full-time, multidisciplinary course covering a range of earth science, engineering, economics and related subjects, and their application to the exploration and exploitation/production of hydrocarbons
Our Energy Policy Masters offers a distinct broad-based, interdisciplinary social science training in energy policy, focusing on the challenge of climate change and the role of innovation. Learn from internationally renowned academics from Sussex's Science Policy Research Unit who are making a global impact and designing and delivering solutions for sustainable futures.
If you are a holder of a bachelor degree or you have equivalent qualifications in Engineering and you are searching for an outstanding master program, Campus El Gouna of Technische Universität Berlin is an excellent choice for you.
Climate change is the central environmental challenge of our time. To address this challenge we must use energy more efficiently and maximize our use of renewable energy.
Education plays a key role in the development and maintenance of the economic viability and growth of the petroleum industry. Whether you are a plant operator or supervisor, an engineer, project manager, executive, regulator, or attorney, or just curious about petroleum technologies, Klaipėda University has a Oil and Gas Process Engineering programme for you.
Logistics deals with the organization of the flow of products, services, and information from raw materials to end products. For a large number of industrial and business companies, achieving high-quality logistics operations will be the key competitive factor for future success. Oil and gas companies are no exception from this.
The master's programme Renewable Energy Online (REO) qualifies you in the field of renewable energy technologies, systems, and sustainability. REO is an English-language, part-time study programme with a technical focus, aiming for engineers and natural scientists with a first university degree and at least one year of professional experience.
The Master of Science in Sustainable Energy Management program (MSSEM) focuses on renewable energy production, transformation, distribution, and management. It is designed to provide students with a well-balanced education in the areas of renewable energy science, engineering, and management.
The MSc ANWM is designed to provide skilled and specialized human resources to the European and international states developing nuclear technology and focusing on Dismantlement and Decommissioning of Nuclear installations and Waste management. The combination of scientific and technical skills with management knowledge and strong safety culture (human factor and organizational safety) is meant to put the human being and environment safety as the priority number one.
The Master's Program Sustainable Energy Technology trains its students to be able to anticipate the change processes in the energy market. Social demand for sustainable energy supplies is growing.
Our MSc will provide with a holistic vision of the energy business and also advance the understanding of finance theory, with a specific focus on the practical aspects of energy-environmental financial markets, encouraging you to develop creative, entrepreneurial and analytical approaches to frame issues in the energy-environment sphere as well as enhance your interpersonal skills.
In this master track, you will focus on becoming an authority on Sustainable Energy Systems.
The part-time MSc Renewable Energy Systems is the first cross-border program in Europe dealing with the future issues of alternative energy production. Since 2005, TU Wien, Energiepark Bruck/Leitha, and further partner organizations across Europe have offered this practice-oriented master’s program.
Energy is becoming more and more a major cost factor for all the players in the energy business due to increased worldwide consumption on the one hand and on the other hand a need to restrict the production of greenhouse gases.
The M.Sc. Sustainable Critical Infrastructure (M.Sc. in SCI) program will be conducive to developing highly skilled researchers and workforce and attracting substantial government and industry interest. The academic program is designed to develop core capabilities, through the integration of coursework and research that is critical to the region. The current scope of the academic programs provides the following set of core capabilities: advanced materials, thermal-fluid sciences, water, and environmental technologies, power systems, computational and information sciences, policy and economic modeling, engineering systems, Microsystems, and chemical processes.