Perspective Chapter: Assessment of Nuclear Sensors and Instrumentation Maturity in Advanced Nuclear Reactors Chapter uri icon

abstract

  • In the last decade, 97% of the worldwide commercial nuclear reactors connected to the grid were Light Water Reactors (LWRs). LWRs are expected to stay the dominant type of nuclear reactors for the next few decades. Reliable and redundant safety systems are required in nuclear reactors to ensure safe operation and shutdown in abnormal conditions. These safety systems are actuated by the signals obtained from several sensors and instrumentation in and out of the reactor core. In LWRs, these sensors and instrumentation have shown a high level of maturity with long operating experience. Ensuring the compatibility of these sensors and instrumentation with advanced nuclear reactors (Generation IV) is necessary. The compatibility of these contemporary technologies with advanced reactors was assessed by comparing the advanced reactors environments with those of the currently operating reactors. In addition to that, the needed R&D for such technologies was highlighted. In comparison with the LWRs environment, it was shown that advanced reactor environments are expected to experience elevated temperatures, a fast neutron spectrum, and a harsh corrosion environment. It was demonstrated that R&D is required mainly for fixed in-core nuclear sensors and instrumentation, while it is not a priority for ex-core nuclear sensors and instrumentation.

author list (cited authors)

  • Abuqudaira, T., Tsvetkov, P., & Sabharwall, P.

citation count

  • 0

complete list of authors

  • Abuqudaira, Thabit||Tsvetkov, Pavel||Sabharwall, Piyush

editor list (cited editors)

  • Dr. Pavel V. Tsvetkov.

Book Title

  • Nuclear Fission - From Fundamentals to Applications

publication date

  • December 2023