Identification of a defected fuel rod in the TRIGA R.C.-1 facility of the ENEA Casaccia Research Center: radiation protection aspects

The nuclear facility TRIGA RC-1 is located at the ENEA Casaccia Research Center in Rome. It is a thermal spectrum research reactor with a thermal power of 1 MW and a Mark III containment. The failure of the fuel cladding of the General Atomic TRIGA is a well-known phenomenon in the literature and is...

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Veröffentlicht in:	European physical journal plus 2023-11, Vol.138 (11), p.1023, Article 1023
Hauptverfasser:	Sperandio, Luciano, Lepore, Luigi, Borra, Enrico Maria, Ciciani, Luca, Fabrizio, Valentina, Falconi, Luca, Formenton, Davide, Iorio, Maria Grazia, Puddu, Valerio, Rizzo, Alessandro, Roberti, Andrea, Ruscitti, Stefano, Scaramuzzo, Luigi, Vilardi, Ignazio
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Sprache:	eng
Schlagworte:	Applied and Technical Physics Atomic Complex Systems Condensed Matter Physics Cooling Cooling water Demineralizing Fission products Focus Point on Radiation Protection Issues in the Enviroment and Workplaces Internal pressure Ion exchange Ion exchange resins Ionizing radiation Mathematical and Computational Physics Molecular Nuclear facilities Nuclear fuel elements Nuclear reactors Optical and Plasma Physics Physics Physics and Astronomy Primary circuits Radiation Radiation protection Radioactivity Reactors Regular Article Research centers Research facilities Resins Scientific imaging Sensors Sustained release Theoretical Thermal power Water purification
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creator	Sperandio, Luciano Lepore, Luigi Borra, Enrico Maria Ciciani, Luca Fabrizio, Valentina Falconi, Luca Formenton, Davide Iorio, Maria Grazia Puddu, Valerio Rizzo, Alessandro Roberti, Andrea Ruscitti, Stefano Scaramuzzo, Luigi Vilardi, Ignazio
description	The nuclear facility TRIGA RC-1 is located at the ENEA Casaccia Research Center in Rome. It is a thermal spectrum research reactor with a thermal power of 1 MW and a Mark III containment. The failure of the fuel cladding of the General Atomic TRIGA is a well-known phenomenon in the literature and is normally expected during its lifetime. Depending on the severity of the cracking, this results in the transfer of radioactivity from inside the fuel rods to the demineralized moderation and cooling water of the primary circuit. This occurs especially when the fuel is heated, as the temperature rise leads to an increase in the internal pressure inside the rods, causing fission products, especially gaseous ones, to be released through the cracks. The sustained release of these fission products over time causes impurities with longer half-lives (e.g., Cs-137) to accumulate in the primary water purification system and, in particular, in the ion exchange resin tank. Therefore, the detection of Cs-137 in the ion exchange resins of the primary water purification system of the reactor is a sufficiently clear indication of the occurrence of such disturbances. Indeed, Cs-137 is not only a direct fission product of U-235, but is also produced by the decay of Xe-137 (one of the major fission noble gasses), which, because of its physical nature, readily escapes through the rod cladding. To ensure worker protection from ionizing radiation during the identification and replacement of defective fuel rods, a special program of physical, environmental, and personal radiation protection monitoring was conducted. In addition to a brief description of the work performed, this report presents the results of radiometric measurements and associated individual dose assessment performed before, during, and after the identification and replacement of the defected fuel elements.
doi_str_mv	10.1140/epjp/s13360-023-04457-5
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Phys. J. Plus</addtitle><description>The nuclear facility TRIGA RC-1 is located at the ENEA Casaccia Research Center in Rome. It is a thermal spectrum research reactor with a thermal power of 1 MW and a Mark III containment. The failure of the fuel cladding of the General Atomic TRIGA is a well-known phenomenon in the literature and is normally expected during its lifetime. Depending on the severity of the cracking, this results in the transfer of radioactivity from inside the fuel rods to the demineralized moderation and cooling water of the primary circuit. This occurs especially when the fuel is heated, as the temperature rise leads to an increase in the internal pressure inside the rods, causing fission products, especially gaseous ones, to be released through the cracks. The sustained release of these fission products over time causes impurities with longer half-lives (e.g., Cs-137) to accumulate in the primary water purification system and, in particular, in the ion exchange resin tank. Therefore, the detection of Cs-137 in the ion exchange resins of the primary water purification system of the reactor is a sufficiently clear indication of the occurrence of such disturbances. Indeed, Cs-137 is not only a direct fission product of U-235, but is also produced by the decay of Xe-137 (one of the major fission noble gasses), which, because of its physical nature, readily escapes through the rod cladding. To ensure worker protection from ionizing radiation during the identification and replacement of defective fuel rods, a special program of physical, environmental, and personal radiation protection monitoring was conducted. 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Phys. J. Plus</stitle><date>2023-11-16</date><risdate>2023</risdate><volume>138</volume><issue>11</issue><spage>1023</spage><pages>1023-</pages><artnum>1023</artnum><issn>2190-5444</issn><eissn>2190-5444</eissn><abstract>The nuclear facility TRIGA RC-1 is located at the ENEA Casaccia Research Center in Rome. It is a thermal spectrum research reactor with a thermal power of 1 MW and a Mark III containment. The failure of the fuel cladding of the General Atomic TRIGA is a well-known phenomenon in the literature and is normally expected during its lifetime. Depending on the severity of the cracking, this results in the transfer of radioactivity from inside the fuel rods to the demineralized moderation and cooling water of the primary circuit. This occurs especially when the fuel is heated, as the temperature rise leads to an increase in the internal pressure inside the rods, causing fission products, especially gaseous ones, to be released through the cracks. 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subjects	Applied and Technical Physics Atomic Complex Systems Condensed Matter Physics Cooling Cooling water Demineralizing Fission products Focus Point on Radiation Protection Issues in the Enviroment and Workplaces Internal pressure Ion exchange Ion exchange resins Ionizing radiation Mathematical and Computational Physics Molecular Nuclear facilities Nuclear fuel elements Nuclear reactors Optical and Plasma Physics Physics Physics and Astronomy Primary circuits Radiation Radiation protection Radioactivity Reactors Regular Article Research centers Research facilities Resins Scientific imaging Sensors Sustained release Theoretical Thermal power Water purification
title	Identification of a defected fuel rod in the TRIGA R.C.-1 facility of the ENEA Casaccia Research Center: radiation protection aspects
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