Application of the Transient Pulse Method to Measure Clay Permeability

Kato, Masaji; Nara, Yoshitaka; Okazaki, Yuki; Kohno, Masanori; Sato, Toshinori; Satō, Tsutomu; Takahashi, M.

doi:10.2320/matertrans.z-m2018826

Cited by 9 publications

(1 citation statement)

References 17 publications

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“…It consisted of a temperature-controlled chamber with triple thermal insulation walls and an air conditioner set in the outermost place of the temperature-controlled chamber. 17,18) The pressure vessel, including the specimen, was set in the innermost chamber, which lacked heat and light sources. Figure 4 shows a photo of the inside of the temperature-controlled chamber.…”

Section: Sample Materialsmentioning

confidence: 99%

Precise Permeability Measurement for High Strength and Ultra Low Permeability Concrete under Controlled Temperature

Kato

Nara

Shibuya³

2020

Mater. Trans.

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High strength and ultra low permeability concrete (HSULPC) is being considered as a material used to package transuranic (TRU) waste for disposal in geological repositories. Therefore, information on the permeability of HSULPC is essential. Permeability tests need to be highly accurate to determine the hydraulic conductivity of HSULPC because of its ultralow permeability. In our study, we measured the permeability of HSULPC samples using the transient pulse method. The temperature of the concrete was finely controlled and held constant. The hydraulic conductivities were determined from the measurements to be around 10 ¹13 to 10 ¹12 m/s for confining pressures between 2 and 10 MPa. The pore pressure was a constant 1 MPa. The results further showed that the permeability of HSULPC had a hysteretic dependence on the effective confining pressure. We found that the hydraulic conductivity of HSULPC is comparable to or less than that of intact Toki granite obtained from Gifu Prefecture in central Japan. It was also considered that the hydraulic conductivity of HSULPC stabilized at around 10 ¹13 m/s after being buried and stressed. The high density and impermeability of HSULPC would enable it to effectively confine 14 C radionuclides found in TRU waste.

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Section: Sample Materialsmentioning

confidence: 99%