Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4925702 | Nuclear Engineering and Design | 2017 | 9 Pages |
Abstract
In this paper, new small long-cycle PWR (Pressurized Water Reactor) cores for low boron concentration operation are designed by employing advanced burnable poison rods (BPRs) in which the BISO (Bi-Isotropic) particles of burnable poison are distributed in a SiC matrix. The BPRs are designed by adjusting the kernel diameter, the kernel material and the packing fraction to effectively reduce the excess reactivity in order to reduce the boron concentration in the coolant and achieve a flat change in excess reactivity over a long operational cycle. In addition, axial zoning of the BPRs was suggested to improve the core performances, and it was shown that the suggested axial zoning of BPRs considerably extends the cycle length compared to a core with no BPR axial zoning. The results of the core physics analyses showed that the cores using BPRs with a B4C kernel have long cycle lengths of â¼4.5 EFPYs (Effective Full Power Years), small maximum CBCs (Critical Boron Concentration) lower than 370Â ppm, low power peaking factors, and large shutdown margins of control element assemblies.
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Physical Sciences and Engineering
Energy
Energy Engineering and Power Technology
Authors
Hoseong Yoo, Dae Hee Hwang, Ser Gi Hong, Ho Choel Shin,