Abstract
The Korean government is currently evaluating two alternatives, direct disposal and pyroprocessing, for the disposal of spent nuclear fuel. This paper presents the ranking results of comparing and evaluating direct disposal and pyro-SFR fuel cycle alternatives using multi-criteria decision-making methods such as AHP, TOPSIS, and PROMETHEE. In considering the various evaluation criteria involved in these two alternatives, we aimed to determine the optimal choice in terms of the economic and social conditions of Korea. The evaluation criteria considered were safety, resource availability, environmental impact, economics, nuclear proliferation resistance, and public acceptance. The results show that the pyro-SFR fuel cycle alternative is more advantageous than direct disposal in the AHP and TOPSIS methods, whereas direct disposal is more advantageous in the PROMETHEE method because the ranking is reversed. TOPSIS assigns the ideal value and the most negative value among the input values to each criterion as a parameter reflecting the concept of distance between the best alternative and the worst alternative. In contrast, the PROMETHEE method first selects the preference function including the preference threshold, and calculates the preferred outflow and the preferred inflow for the detailed evaluation indicators. Therefore, differences exist in the methodologies of multi-criteria decision making. Nonetheless, the analysis results of the back-end fuel cycle option can greatly contribute to establishing a nuclear policy for the back-end nuclear fuel cycle, and these efforts will enable sustainable nuclear power generation.
Highlights
Korea is currently developing pyroprocessing and direct disposal as methods of managing spent fuel
Rank-reciprocal weights were derived from previous criteria, multi-criteria decision-making results of the direct disposal and criteria, multi-criteria decision-making results of the direct disposal andpyro-sodium-cooled fast reactor (SFR)
Method, the directadvantageous disposal is than more the pyro-SFR fuel cycle advantageous than thealternative
Summary
Korea is currently developing pyroprocessing and direct disposal as methods of managing spent fuel. It is necessary to analyze which of the two methods is more efficient and economical. This is because the temporary storage for spent fuel at the nuclear power plant sites in Korea is expected to be saturated by 2024. Nuclear fuel cycle alternatives are evaluated using a variety of criteria. The weight of various criteria can be a very important factor for the selection of the desired nuclear fuel cycle, and may vary according to the social and economic environment of each country. The weight should be derived using scientific and systematic methods when determining the preference of nuclear fuel cycle alternatives [2,3]
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