Concepts of heat dissipation of a disposal canister and its computational analysis

Author:

Kim Minseop,Lee MinsooORCID,Kim Jinseop,Yoon Seok

Funder

Institute for Korea Spent Nuclear Fuel

Ministry of Science, ICT and Future Planning

National Research Foundation of Korea

Publisher

Elsevier BV

Subject

Nuclear Energy and Engineering

Reference31 articles.

1. Long-term Evolution of GyeongJu Bentonite Buffer in KURT Underground Environment;Lee,2020

2. The oxidation of Cu (I) in electrolyte solutions;Sharma;J. Solut. Chem.,1988

3. The effective diffusion coefficient of dissolved oxygen and oxidation rate of pyrite by dissolved oxygen in compacted purified and crude sodium bentonites in carbonate buffered solution;Manaka;Nucl. Technol.,2003

4. Diffusion of soluble salts under a temperature gradient after the hydration of compacted bentonite;Martın;Appl. Clay Sci.,2000

5. Impact of Elevated Temperatures on Bentonite Buffers;Wilson,2016

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