Mechanical Behaviour of the Rotating Target SORGENTINA-RF
-
Published:2023-08-04
Issue:15
Volume:13
Page:8967
-
ISSN:2076-3417
-
Container-title:Applied Sciences
-
language:en
-
Short-container-title:Applied Sciences
Author:
Lamberti Marco12ORCID, Marinari Ranieri3ORCID, Mancini Andrea3, Gadani Gianni3, Pietropaolo Antonino3ORCID,
Affiliation:
1. LMA, Aix-Marseille University, CNRS, Centrale Marseille, 13453 Marseille, France 2. ENEA—Management of Infrastructures and Services, 00196 Rome, Italy 3. ENEA—Department of Fusion and Technologies for Nuclear Safety and Security, 00196 Rome, Italy
Abstract
The SORGENTINA-RF project aims at developing a 14 MeV neutron source based on a deuterium/tritium ion accelerator and a rotating target where fusion reactions take place. Among the different research fields, the most interesting and promising is medical radioisotope production. In this framework, intense research work on the design of the rotating target has been carried out. More in detail, to define the optimal design configuration, a sensitivity analysis on the mechanical performance of the rotating target considering the influence of some relevant parameters, such as material type, thickness, and presence of internal stiffeners, was carried out. Among the materials analyzed, aluminium alloy represents the best compromise to efficiently address all the critical requirements in the design phase. One of the most demanding project requirements that the conceptual design must fulfill is the ability of the target to dissipate a thermal power of 250 kW without precluding its mechanical properties and resistance. To investigate the performance of the rotating target, some thermo-mechanical analyses were undertaken with finite element method under some thermal transients and mechanical loads able to simulate the working conditions of the system. The numerical results emphasise the target’s ability to withstand operating conditions. The main outcomes of the present study have been implemented as engineering solutions in the project design.
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference21 articles.
1. Capogni, M., Pietropaolo, A., Quintieri, L., Angelone, M., Boschi, A., Capone, M., Cherubini, N., De Felice, P., Dodaro, A., and Duatti, A. (2018). 14 MeV Neutrons for 99Mo/99mTc Production: Experiments, Simulations and Perspectives. Molecules, 23. 2. Capogni, M., Pietropaolo, A., and Quinteri, L. (2023, July 14). RT/2016/32/ENEA. Available online: https://iris.enea.it/retrieve/dd11e37c-d7ba-5d97-e053-d805fe0a6f04/RT-2016-32-ENEA.pdf. 3. SORGENTINA-RF project: Fusion neutrons for 99Mo medical radioisotope;Pietropaolo;Eur. Phys. J. Plus,2021 4. Sartorio, C., Angiolini, M., Flammini, D., Pietropaolo, A., Agostini, P., Alberghi, C., Candido, L., Capogni, M., Capone, M., and Cataldo, S. (2022). Preliminary Assessment of Radiolysis for the Cooling Water System in the Rotating Target of SORGENTINA-RF. Environments, 9. 5. Sorgentina-RF Fusion Neutron Plant: Preliminary Design of the Bioshielding in Compliance with Dose Constraints for Workers Exposure;Ferrari;Radiat. Prot. Dosim.,2022
|
|