Title :
Operation scenario of DT fusion plant without external initial tritium
Author :
Kwon, Susanna ; Kasada, R. ; Konishi, Satoshi
Author_Institution :
Grad. Sch. of Enegy Sci., Kyoto Univ., Uji, Japan
Abstract :
A scenario ito obtain initial tritium to reach steady state DT operation by DD commissioning phase of the fusion plant is presented. By the DD reaction, resulted T and neutron that produces T in the breeding blanket will be accumulated. ANeutronics of LiPb liquid blanket with 90% enriched lithium-6 was evaluated with neutron transport code MCNP-5.14 using FENDL-2.1 data libraries. System dynamics code STELLA-10.0.2 was used for the analysis of tritium system and the scenario of the breeding. As the result, calculated local tritium breeding ratio in the blanket is 1.20 by DT neutron and 0.84 by DD neutron. The required extension period of DD commissioning operation without initial tritium is estimated closely 90 days, depending on the coverage and inventory. These results reveal that launching DT fusion projects without initial tritium is possible with additional DD operation period to obtain extra tritium to start up DT operation.
Keywords :
commissioning; fusion reactor blankets; fusion reactor fuel; fusion reactor operation; tritium handling; D(D,X); DD commissioning operation; DD commissioning phase; DD neutron; DD operation period; DT fusion plant; DT fusion projects; DT neutron; DT operation; FENDL-2.1 data libraries; LiPb liquid blanket; breeding blanket; enriched lithium-6; external initial tritium; local tritium breeding ratio; neutron transport code MCNP-5.14; neutronics; operation scenario; steady state DT operation; system dynamics code STELLA-10.0.2; tritium system; Fuels; Fusion reactors; Loading; Materials; Neutrons; Plasmas; Steady-state; Li-Pb blanket; Tritium; neutronics; system dynamics;
Conference_Titel :
Fusion Engineering (SOFE), 2013 IEEE 25th Symposium on
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4799-0169-2
DOI :
10.1109/SOFE.2013.6635449
