Please use this identifier to cite or link to this item: https://www.um.edu.mt/library/oar/handle/123456789/94742
Title: Integrated design of breeding blanket and ancillary systems related to the use of helium or water as a coolant and impact on the overall plant design
Authors: Spagnuolo, G. A.
Arredondo, R.
Boccaccini, L. V.
Chiovaro, P.
Ciattaglia, S.
Cismondi, F.
Coleman, M.
Cristescu, I.
D'Amico, Sebastiano
Day, C.
Del Nevo, A.
Di Maio, P. A.
D'Onorio, M.
Federici, G.
Franza, F.
Froio, A.
Gliss, C.
Hernández, F. A.
Li Puma, A.
Moreno, C.
Moscato, I.
Pereslavtsev, P.
Porfiri, M. T.
Rapisarda, D.
Rieth, M.
Santucci, A.
Schwenzer, J. C.
Stieglitz, R.
Tosti, S.
Urgorri, F. R.
Utili, M.
Vallone, E.
Keywords: Fusion reactors -- Design and construction
Tritium
Power-plants -- Design and construction
Helium -- Thermal properties
Water -- Thermal properties
Issue Date: 2021-12
Publisher: Elsevier
Citation: Spagnuolo, G., Arredondo, R., Boccaccini, L., Chiovaro, P., Ciattaglia, S., Cismondi, F., ... Vallone, E. (2021). Integrated design of breeding blanket and ancillary systems related to the use of helium or water as a coolant and impact on the overall plant design. Fusion Engineering and Design, 173, 112933.
Abstract: Currently, for the EU DEMO, two Breeding Blankets (BBs) have been selected as potential candidates for the integration in the reactor. They are the Water Cooled Lithium Lead and the Helium Cooled Pebble Bed BB concepts. The two BB variants together with the associated ancillary systems drive the design of the overall plant. Therefore, a holistic investigation of integration issues derived by the BB and the installation of its ancillary systems has been performed. The issues related to the water activation due to the 16N and 17N isotopes and the impact on the primary heat transfer systems have been investigated providing guidelines and dedicated solution for the integration of safety devices as isolation valves. The tritium retention and the permeation rates through the blanket and its ancillary systems have been also assessed taking into account different operating points both for the BB and ancillaries and comparing, when possible, the releases with the operating and safety limits. Moreover, the issues related to the tritium start-up inventory as well as the uncertainties on the Tritium Breeding Ratio (TBR) due to the integration of the auxiliary systems within the Vacuum Vessel have been also studied. Finally, the impact of the BB concepts on the safety systems like the Vacuum Vessel Pressure Suppression System is described with a particular focus on the different measures that should be implemented according to the considered concept. All these aspects are then taken into account to drive future developments during the Concept Design Phase.
URI: https://www.um.edu.mt/library/oar/handle/123456789/94742
Appears in Collections:Scholarly Works - FacSciGeo



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