Compare 15 Master of Science Degrees in Nuclear Energy Engineering
After completing undergraduate programs, serious students can start working toward Master of Science (MSc) to become more intimately acquainted with their fields and to pursue more-advanced careers. This higher level of education aids students later by giving them more opportunities to grow and advance in their chosen fields.
The area of nuclear engineering is very expansive, but what is an MSc in Nuclear Energy Engineering? First, students learn about the science and basic knowledge of nuclear energy production. After they have a firm grasp of the theoretical side of the field, they begin studying the practice of nuclear engineering. Everything from reactor physics to materials to fuel cycles should be studied. Meanwhile, you can narrow your interest to the specific career, of many, that you want to pursue. There are many options, which makes it a very viable major.
Besides the very advanced science you learn, the benefits of an MSc in Nuclear Energy Engineering also includes a very rewarding career. You will be helping shape the future of energy production or be a part of developing a more advanced energy system in budding countries.
Before you enroll, you should look into how much your program costs. Expenses vary depending on the university and country you decide to study in, so you should take all these aspects into consideration while looking at programs.
Professional nuclear engineers are always needed where nuclear energy is used. This includes already established systems and systems that are still being set up in developing countries. You can choose to work in design and development, research, management, plant operation, or manufacturing. When studying, you should keep in mind that the field is mostly split into two categories: applied and theoretical nuclear engineering.
If you are pursuing an undergraduate degree in nuclear energy and want to continue your education to higher levels, you should consider working toward a Master of Science in Nuclear Energy Engineering. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
15 Results in Nuclear Energy Engineering Filter
The Unit for Nuclear Engineering (UNE) is the only academic department in Israel offering graduate studies towards M.Sc. and Ph.D. degrees in the field.
The joint master's programme in Nuclear Energy (EMINE) is offered by four European universities through InnoEnergy. Nuclear energy has a significant place in a low-carbon, global energy mix – and is a dynamic sector in which to build a lifelong career in sustainable energy. The programme deepens your technical knowledge while broadening your understanding of the wider energy sector and the societal, economic and environmental impacts of nuclear energy.
The aim of the MSc program in Nuclear Engineering is to prepare engineers with the necessary skills to design, build and operate power generation plants, radioactive waste treatment plants, systems using radiation for industrial and medical applications, etc.
The aim of the master’s program is to provide a high-level multinational research-oriented education in fusion-related engineering physics, in close relation to the research activities of the partners, and with a well-integrated language and cultural experience. The combined and harmonized teaching and research of the 7 institutions involved, offers a great variety of competences in the field of fusion science and engineering physics. The joint European master’s program offers a genuine European opportunity for master level studies in a field which is of crucial importance to contribute to the solution of the ever more urgent and vital problem of world energy supply. The partners have a long relationship in the framework of the coordinated EURATOM research program on nuclear fusion.
Are you interested in solving environmental challenges due to the nuclear industry and waste management? There is an urgent need for university-trained candidates within nuclear sciences, including radioecology.
The European Master in Nuclear Fusion Science and Engineering Physics (FUSION-EP) programme builds, with its wide network of universities and institutes, upon excellent competencies in the area of high-level multinational research-oriented education in fusion-related engineering physics. The programme operates in close relation to the research activities of the partners, and with a well-integrated language and cultural experience. The studies in Engineering Physics are devoted to the technical applications of physics and strongly supported by the research activities in the different laboratories within the Consortium. By combining the basic concepts of a degree in engineering with the essentials of education as an engineering physicist, these studies seek to train engineers capable of performing or leading technical and scientific research in universities, research establishments or industry.
The Belgian Master of Nuclear Engineering program is embedded in the European ENEN Association, a non-profit international organization of universities and research centers for the preservation and further development of higher nuclear education and expertise.
This field has a continuous need for professionals to control nuclear power plant reactors and generators, taking into consideration and putting into practice nuclear safety in all subsystems of a nuclear plant. In this programme, you will learn about energy economics, environmental impacts, savings and emissions, nuclear energy and safety, and the development of plant processes.
Graduates from Nuclear Power Engineering possess a vast knowledge of general mathematics, thermodynamics, mechanics of solids, mechanics of fluids, environment protection, thermal engineering, turbomachinery, conventional and renewable power technologies, and socioeconomics.
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.
Nuclear technology plays a crucial role in a wide variety of contexts and sectors in Belgium, including power production, waste management, nuclear fuel production, etc. The Belgian Nuclear Higher Education Network (B.N.E.N.) combines the expertise in nuclear education and research of six major Belgian universities (KU Leuven, UGent, VUB, UCL, U.L.G. and ULB) with the Belgian Nuclear Research Centre SCK-CEN.
The worldwide collaboration on the development of nuclear fusion as a safe, clean and inexhaustible energy source is now culminating in the construction of the large test reactor ITER. ITER is being built in Europe (in Cadarache, France) and will demonstrate 10-fold power multiplication at the 500 MW level.
This Master develops fundamental scientific, technical and industrial knowledge of the different nuclear technologies used in the medical field. It has a particular focus on the safety and radioprotection, to be considered in the management of a large project in this field.
The MSc NEPIA is designed to provide skilled and specialized human resources to the European and international states developing nuclear technology. 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 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.