Preliminary Assessment of Radiolysis for the Cooling Water System in the Rotating Target of SORGENTINA-RF

Preliminary Assessment of Radiolysis for the Cooling Water System in the Rotating Target of SORGENTINA-RF

The SORGENTINA-RF project aims at developing a 14 MeV fusion neutron source featuring an emission rate in the order of 5–7 × 1013 s−1. The plant relies on a metallic water-cooled rotating target and a deuterium (50%) and tritium (50%) ion beam. Beyond the main focus of medical radioisotope productio...

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Veröffentlicht in:Environments (Basel, Switzerland) Switzerland), 2022-08, Vol.9 (8), p.106
Hauptverfasser: Sartorio, Camillo, Angiolini, Massimo, Flammini, Davide, Pietropaolo, Antonino, Agostini, Pietro, Alberghi, Ciro, Candido, Luigi, Capogni, Marco, Capone, Mauro, Cataldo, Sebastiano, Contessa, Gian Marco, D’Arienzo, Marco, Del Dotto, Alessio, Diamanti, Dario, Dongiovanni, Danilo, Farini, Mirko, Ferrari, Paolo, Fiore, Angela, Fonnesu, Nicola, Frisoni, Manuela, Gadani, Gianni, Gentili, Angelo, Grasso, Giacomo, Guardati, Manuela, Guidoni, David, Lamberti, Marco, Lepore, Luigi, Mancini, Andrea, Mariani, Andrea, Marinari, Ranieri, Marzo, Giuseppe A., Mastroianni, Bruno, Moro, Fabio, Orefice, Agostina, Orsetti, Valerio, Pinna, Tonio, Rizzo, Antonietta, Rydzy, Alexander, Salvi, Stefano, Santoli, Demis, Santucci, Alessia, Saraceno, Luca, Scaglione, Salvatore, Sermenghi, Valerio, Serra, Emanuele, Simonetti, Andrea, Spassovsky, Ivan Panov, Terranova, Nicholas, Tosti, Silvano, Ubaldini, Alberto, Utili, Marco, Zito, Pietro, Zola, Danilo, Voukelatou, Konstantina, Zummo, Giuseppe
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum
Aqueous solutions
Chemical reactions
Cooling water
Corrosion products
Deuterium
fusion
Geometry
Heat
Ion beams
neutron source
Neutrons
Radiation
Radioisotopes
Radiolysis
Rotation
Tritium
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Zusammenfassung:The SORGENTINA-RF project aims at developing a 14 MeV fusion neutron source featuring an emission rate in the order of 5–7 × 1013 s−1. The plant relies on a metallic water-cooled rotating target and a deuterium (50%) and tritium (50%) ion beam. Beyond the main focus of medical radioisotope production, the source may represent a multi-purpose neutron facility by implementing a series of neutron-based techniques. Among the different engineering and technological issues to be addressed, the production of incondensable gases and corrosion product into the rotating target deserves a dedicated investigation. In this study, a preliminary analysis is carried out, considering the general layout of the target and the present choice of the target material.
ISSN:2076-3298
2076-3298
DOI:10.3390/environments9080106