Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Post-earthquake rapid resealing of bedrock flow-paths by concretion-forming resin
https://orcid.org/0000-0003-3878-3891
https://orcid.org/0000-0001-7417-6592
https://orcid.org/0000-0002-7968-346X
AbstractMany underground activities may require reducing or preventing fluid flows through bedrock, e.g., sealing of site investigation boreholes, underground tunneling, hydrocarbon field abandonment, and nuclear waste disposal. Cementitious materials such as grout are commonly used for bedrock flow-path sealing, however conventionally used these materials unavoidably undergo physical and chemical degradation, therefore potentially decreasing seal durability. Here, we report a more durable sealing method for concretion-forming resin developed by learning from natural calcite, CaCO3, and spheroidal concretion formation. The method was tested by sealing flow paths next to a tunnel in an underground research laboratory at 350 m depth, in Hokkaido, Japan. The flow paths were initially sealed rapidly, then resealed after disturbance by repeated earthquakes with foci below the underground research laboratory at depths of 2–7 km and maximum magnitude Mw 5.4. The treated rock mass rapidly recovered its very low natural permeability, demonstrating robust self-sealing and healing.
Post-earthquake rapid resealing of bedrock flow-paths by concretion-forming resin
https://orcid.org/0000-0003-3878-3891
https://orcid.org/0000-0001-7417-6592
https://orcid.org/0000-0002-7968-346X
AbstractMany underground activities may require reducing or preventing fluid flows through bedrock, e.g., sealing of site investigation boreholes, underground tunneling, hydrocarbon field abandonment, and nuclear waste disposal. Cementitious materials such as grout are commonly used for bedrock flow-path sealing, however conventionally used these materials unavoidably undergo physical and chemical degradation, therefore potentially decreasing seal durability. Here, we report a more durable sealing method for concretion-forming resin developed by learning from natural calcite, CaCO3, and spheroidal concretion formation. The method was tested by sealing flow paths next to a tunnel in an underground research laboratory at 350 m depth, in Hokkaido, Japan. The flow paths were initially sealed rapidly, then resealed after disturbance by repeated earthquakes with foci below the underground research laboratory at depths of 2–7 km and maximum magnitude Mw 5.4. The treated rock mass rapidly recovered its very low natural permeability, demonstrating robust self-sealing and healing.
Post-earthquake rapid resealing of bedrock flow-paths by concretion-forming resin
https://orcid.org/0000-0003-3878-3891
https://orcid.org/0000-0001-7417-6592
https://orcid.org/0000-0002-7968-346X
AbstractMany underground activities may require reducing or preventing fluid flows through bedrock, e.g., sealing of site investigation boreholes, underground tunneling, hydrocarbon field abandonment, and nuclear waste disposal. Cementitious materials such as grout are commonly used for bedrock flow-path sealing, however conventionally used these materials unavoidably undergo physical and chemical degradation, therefore potentially decreasing seal durability. Here, we report a more durable sealing method for concretion-forming resin developed by learning from natural calcite, CaCO3, and spheroidal concretion formation. The method was tested by sealing flow paths next to a tunnel in an underground research laboratory at 350 m depth, in Hokkaido, Japan. The flow paths were initially sealed rapidly, then resealed after disturbance by repeated earthquakes with foci below the underground research laboratory at depths of 2–7 km and maximum magnitude Mw 5.4. The treated rock mass rapidly recovered its very low natural permeability, demonstrating robust self-sealing and healing.
Post-earthquake rapid resealing of bedrock flow-paths by concretion-forming resin
Commun Eng
Yoshida, Hidekazu (Autor:in) / Yamamoto, Koshi (Autor:in) / Asahara, Yoshihiro (Autor:in) / Maruyama, Ippei (Autor:in) / Karukaya, Koichi (Autor:in) / Saito, Akane (Autor:in) / Matsui, Hiroya (Autor:in) / Mochizuki, Akihito (Autor:in) / Jo, Mayumi (Autor:in) / Katsuta, Nagayoshi (Autor:in)
22.05.2024
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Post-earthquake rapid resealing of bedrock flow-paths by concretion-forming resin
| DOAJ | 2024
| Online Contents | 1994
| Engineering Index Backfile | 1951
Concrete sample point: 304 Concretion Facility
| NTIS | 1995