About this Research Topic
Since the first nuclear reactor was built in 1942, scientists have been using nuclear energy. In the history of nuclear energy, tremendous advances in fission and reactor technology have been made and several new Generation III+ reactor systems have been constructed, such as AP 1000 and HPR 1000. Since the Generation IV reactor systems were proposed in 2002, six kinds of representative advanced reactor designs have been the priority of research and development. More recently, Generation IV+ nuclear systems have also been proposed. Nuclear energy has great potential for the future, but there are still a lot of challenges that need to be resolved. Therefore, an assessment of current technologies and a roadmap for future research paths are essential driving forces for the sustainable development of nuclear energy.
This Research Topic is focused on showcasing expert opinions and perspectives within the field of fission and reactor design. The collection aims to bring together experts from multidisciplinary fields to reflect on the past and highlight novel outcomes and future directions. It is hoped that this Research Topic will stimulate discussion in the field and encourage future collaborations.
The following manuscript types are particularly welcome in this collection:
• Perspective: presentation of a viewpoint on a specific area of investigation.
• Opinion: viewpoints on the interpretation of recent findings in the field, value of the methods used, as well as weaknesses and strengths of scientific hypotheses.
• Hypothesis and Theory: presentation of a novel argument, interpretation, or model intended to introduce a new hypothesis or theory.
For more information regarding these article types, please see here.
Topic themes of particular interest to this collection include, but are not limited to, the following:
• Advanced nuclear reactor design
• Nuclear reactor safety
• Reactor thermal hydraulics, physics, and radiation transport
• Structural plant design
• Nuclear fuels research
• Nuclear codes and standards
This Research Topic is focused on showcasing expert opinions and perspectives within the field of fission and reactor design. The collection aims to bring together experts from multidisciplinary fields to reflect on the past and highlight novel outcomes and future directions. It is hoped that this Research Topic will stimulate discussion in the field and encourage future collaborations.
The following manuscript types are particularly welcome in this collection:
• Perspective: presentation of a viewpoint on a specific area of investigation.
• Opinion: viewpoints on the interpretation of recent findings in the field, value of the methods used, as well as weaknesses and strengths of scientific hypotheses.
• Hypothesis and Theory: presentation of a novel argument, interpretation, or model intended to introduce a new hypothesis or theory.
For more information regarding these article types, please see here.
Topic themes of particular interest to this collection include, but are not limited to, the following:
• Advanced nuclear reactor design
• Nuclear reactor safety
• Reactor thermal hydraulics, physics, and radiation transport
• Structural plant design
• Nuclear fuels research
• Nuclear codes and standards
Keywords: #CollectionSeries, Advanced Nuclear Reactor Design, Structural Plant Design, Reactor Control, Reactor Simulation, Thermal Hydraulics, Reactor Physics and Radiation Transport, Nuclear Codes and Standards, Nuclear Fuels
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
