There are various factors that have a negative impact on safety over a long period of timeafter the closure of a radioactive waste disposal facility. In particular, it is important to limit substancesthat accelerate radionuclide migration while inhibiting adsorption between radionuclides and thesubsurface medium. Through this study, a method for deriving a quantitative criteria evaluation methodis proposed for cellulose among materials that accelerate the movement of these radionuclides afterclosure of the disposal facility. Since Sweden's SKB is representative worldwide for preparing criteria forcellulose in disposal facilities, it analyzed Sweden's acceptance criteria method and presented a methodthat can be applied domestically. The decomposition characteristics of cellulose and the adsorption anddissolution characteristics of ISA among degradation products were reviewed, and quantitative analysisof cement materials that create a high pH environment favorable for cellulose decomposition was alsoincluded. In addition, the total amount of the finally disposable cellulose material can be derived byusing the volume information of the waste containing the cellulose material. Through this methodologyfor calculating the total amount of cellulose, it is expected that subsequent studies will be conducted tosecure data reflecting the environmental conditions of radioactive waste disposal facilities in Korea. Inaddition, it is expected to be utilized as a good method to evaluate the impact of other complexing agentsother than cellulose and to suggest the amount of disposal.