Published 2013 | Version v1
Publication Metadata-only

Study of an intrinsically safe infrastructure for training and research on nuclear technologies

Marco Ripani
Stefano Frambati
Luigi Mansani
Maurizio Bruzzone
Marco Reale
Stefano Monti
Marco Ciotti
Massimo Barbagallo
Nicola Colonna
Andrea Celentano
Mikhail Osipenko
Giovanni Ricco
Paolo Saracco
Carlo Maria Viberti
Oscar Frasciello
Pasquale Boccaccio
Juan Esposito
Augusto Lombardi
Mario Maggiore
Leandro A. C. Piazza
Gianfranco Prete
Rosa Alba
Luciano Calabretta
Gianluigi Cosentino
Antonio Del Zoppo
Alessia Di Pietro
Pierpaolo Figuera
Paolo Finocchiaro
Cettina Maiolino
Domenico Santonocito
Maria Schillaci
Davide Chiesa
Massimiliano Clemenza
Ezio Previtali
Monica Sisti
Alexander Kostyukov
Antonio Cammi
Sara Bortot
Stefano Lorenzi
Marco Ricotti
Sandra Dulla
Piero Ravetto
Guglielmo Lomonaco
Alessandro Rebora
Daniele Alloni
Andrea Borio di Tigliole
Marcella Cagnazzo
Riccardo Cremonesi
Giovanni Magrotti
Sergio Manera
Fabio Panza
Michele Prata
Andrea Salvini
Others:
Ripani, Marco
Frambati, Stefano
Mansani, Luigi
Bruzzone, Maurizio
Reale, Marco
Monti, Stefano
Ciotti, Marco
Barbagallo, Massimo
Colonna, Nicola
Celentano, Andrea
Osipenko, Mikhail
Ricco, Giovanni
Saracco, Paolo
Viberti, CARLO MARIA
Frasciello, Oscar
Boccaccio, Pasquale
Esposito, Juan
Lombardi, Augusto
Maggiore, Mario
Piazza, Leandro A. C.
Prete, Gianfranco
Alba, Rosa
Calabretta, Luciano
Cosentino, Gianluigi
Del Zoppo, Antonio
Di Pietro, Alessia
Figuera, Pierpaolo
Finocchiaro, Paolo
Maiolino, Cettina
Santonocito, Domenico
Schillaci, Maria
Chiesa, Davide
Clemenza, Massimiliano
Previtali, Ezio
Sisti, Monica
Kostyukov, Alexander
Cammi, Antonio
Bortot, Sara
Lorenzi, Stefano
Ricotti, Marco
Dulla, Sandra
Ravetto, Piero
Lomonaco, Guglielmo
Rebora, Alessandro
Alloni, Daniele
Borio di Tigliole, Andrea
Cagnazzo, Marcella
Cremonesi, Riccardo
Magrotti, Giovanni
Manera, Sergio
Panza, Fabio
Prata, Michele
Salvini, Andrea

Description

Within European Partitioning & Transmutation research programs, infrastructures specifically dedicated to the study of fundamental reactor physics and engineering parameters of future fast-neutron-based reactors are very important, being some of these features not available in present zero-power prototypes. This presentation will illustrate the conceptual design of an Accelerator-Driven System with high safety standards, but ample flexibility for measurements. The design assumes as base option a 70MeV, 0.75mA proton cyclotron, as the one which will be installed at the INFN National Laboratory in Legnaro, Italy and a Beryllium target, with Helium gas as core coolant. Safety is guaranteed by limiting the thermal power to 200 kW, with a neutron multiplication coefficient around 0.94, loading the core with fuel containing Uranium enriched at 20% inserted in a solid-lead diffuser. The small decay heat can be passively removed by thermal radiation from the vessel. Such a system could be used to study, among others, some specific aspects of neutron diffusion in lead, beam-core coupling, target cooling and could serve as a training facility.

Additional details

Identifiers Origin repository
Created:
May 13, 2023
Modified:
November 30, 2023