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http://dx.doi.org/10.1016/j.net.2020.10.010

Illustration of Nagra's AMAC approach to Kori-1 NPP decommissioning based on experience from its detailed application to Swiss NPPs  

Volmert, Ben (National Cooperative for the Disposal of Radioactive Waste (NAGRA))
Bykov, Valentyn (National Cooperative for the Disposal of Radioactive Waste (NAGRA))
Petrovic, Dorde (National Cooperative for the Disposal of Radioactive Waste (NAGRA))
Kickhofel, John (apollo plus GmbH)
Amosova, Natalia (apollo plus GmbH)
Kim, Jong Hyun (ACT)
Cho, Cheon Whee (ACT)
Publication Information
Nuclear Engineering and Technology / v.53, no.5, 2021 , pp. 1491-1510 More about this Journal
Abstract
This work presents an illustration of Nagra's AMAC (Advanced Methodology for Activation Characterization) approach to the South Korean pressurized water reactor Kori-1 decommissioning. The results achieved are supported by the existing experience from the detailed AMAC applications to Swiss NPPs and are used not only for a demonstration of the applicability of AMAC to South Korean NPPs, but also for a first approximation of the activated waste volumes to be expected from Kori-1. A packaging concept based on the above activation characterization is also presented, using the AMAC algorithmic optimization software ALGOPACK leading to the minimum number of waste containers needed given the selected packaging constraints. Nagra's AMAC enables effective planning before and during NPP decommissioning, including recommendations for cutting profiles for diverse reactor components and building structures. Finally, it is expected to lead to significant cost savings by reducing the number of expensive waste containers, by optimizing a potential melting strategy for metallic waste as well as by significantly limiting the number of radiological measurements. All information about Kori-1 used for the purpose of this study was collected from publicly available sources.
Keywords
AMAC; Kori-1; PWR; Decommissioning; Activation; MCNP; ORIGEN; Packaging; Segmentation; ALGO-PACK; RPV; Internals; Shielding structures;
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