Standard Guide for Sensor Set Design and Irradiation for Reactor Surveillance

Importancia y uso:

4.1 In neutron dosimetry, a fission or non-fission dosimeter, or combination of dosimeters, can be used for determining a fluence rate, fluence, or neutron spectrum in nuclear reactors. Each dosimeter is sensitive to a specific energy range, and, if desired, increased accuracy in a fluence rate spectrum can be achieved through the use of several dosimeters, each covering specific neutron energy ranges.

4.2 A wide variety of detector materials is used for various purposes. Many of these substances overlap in the energy of the neutrons which they will detect, but many different materials are used for a variety of reasons. These reasons include available analysis equipment, different cross sections for different fluence rate levels and spectra, preferred chemical or physical properties, and, in the case of radiometric dosimeters, varying requirements for different half-life isotopes, possible interfering activities, and chemical separation requirements.

Subcomité:

E10.05

Referida por:

E0265-15R20, E0185-21, E0720-23, E0721-22, E0531-24, E0393-19, E0266-23, E0722-19, E1297-18, E1855-20, E2215-24, E1006-21, E1035-18R23, E0523-21E01, E0263-25, E0854-19R25, E0526-22, E1854-19, E0704-19, E1018-20E01, E2006-22, E0705-18, E0261-16R21, E0853-25, E1005-21, E0910-24, E2956-25, E0264-19, E0944-19, E0482-22, E0706-23

Volúmen:

12.02

Número ICS:

17.240 (Radiation measurements)

Palabras clave:

activity; dosimeter; fission monitor; monitor; monitor foil; neutron fluence; pressure vessel; radiometric monitor; reaction rate; reactor surveillance; sensor;