Articles written in Pramana – Journal of Physics
Volume 72 Issue 5 May 2009 pp 819-832 Research Articles
In a thermal neutron reactor, multiple recycle of U–Pu fuel is not possible due to degradation of fissile content of Pu in just one recycle. In the FBR closed fuel cycle, possibility of multi-recycle has been recognized. In the present study, Pu-239 equivalence approach is used to demonstrate the feasibility of achieving near constant input inventory of Pu and near stable Pu isotopic composition after a few recycles of the same fuel of the prototype fast breeder reactor under construction at Kalpakkam. After about five recycles, the cycle-to-cycle variation in the above parameters is below 1%.
Volume 77 Issue 2 August 2011 pp 315-333
An FBR closed fuel cycle involves recycling of the discharge fuel, after reprocessing and refabrication, to utilize the unburnt fuel remains and the freshly bred ﬁssile material. Our previous study in this regard for the PFBR indicated a comfortable feasibility of multiple recycling with selfsufﬁciency. In the present work, more reﬁned estimations are done using the most recent nuclear data, viz. ENDF/B-VII.0, and with the most recent speciﬁcation of the fuel composition. Among others, this paper brings out the importance of taking into account the energy self-shielding effects in the cross-section averages used in the study. While self-shielded averages lead to realistic predictions, unshielded averages signiﬁcantly overpredict breeding in the blankets and underpredict loss in the cores.
Volume 96, 2022
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