In-reactor behaviour and economic assessment of enriched gadolinia burnable absorbers

Review Nuclear Science & Technology

Burnable absorbers in nuclear reactors-A review

Jordan A. Evans et al.

Summary: Burnable absorbers can provide reactivity control and other benefits in nuclear reactors of different designs. The selection of burnable absorber type and design should consider its impact on fuel cycle design, cost, reactivity, thermal hydraulics, manufacturing, and radiation response. The criteria and material property requirements may vary depending on the application of the burnable absorber.

NUCLEAR ENGINEERING AND DESIGN (2022)

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Article Chemistry, Physical

The effect of enriched gadolinia and its concentrations on the neutronic parameters of AP-1000 fuel assembly

Farrokh Khoshahval

Summary: This paper investigates methods of effective use of gadolinium-bearing rods as burnable poisons in AP-1000 fuel assembly. A sensitivity analysis was performed to examine the impact of using enriched Gd2O3 and various concentrations of Gd2O3 fuel pins. The results suggest that the design with higher Gd155 enrichment achieves the lowest reactivity swing, better pin power peaking factor, and reduced reactivity binding.

RADIATION PHYSICS AND CHEMISTRY (2022)

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Article Nuclear Science & Technology

Performance and economic assessment of enriched gadolinia burnable absorbers

M. J. Bolukbasi et al.

Summary: In this study, fuel assemblies using gadolinium oxide enriched with 157Gd isotope were modelled and compared to natural Gd based absorber. The use of enriched Gd isotopes in the fuel eliminates residual reactivity caused by natural gadolinium oxide and allows similar reactivity properties with less burnable absorber. The financial cost of incorporating enriched Gd isotopes into nuclear fuel has also been estimated.

PROGRESS IN NUCLEAR ENERGY (2021)

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Article Nuclear Science & Technology