A Coupled Modeling Simulator for Near-Field Processes in Cement Engineered Barrier Systems for Radioactive Waste Disposal

Details are presented of the development of a coupled modeling simulator for assessing the evolution in the near-field of a geological repository for radioactive waste disposal where concrete is used as a backfill. The simulator uses OpenMI, a standard for exchanging data between simulation software...

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Bibliographic Details
Main Authors: Steven J. Benbow, Daisuke Kawama, Hiroyasu Takase, Hiroyuki Shimizu, Chie Oda, Fumio Hirano, Yusuke Takayama, Morihiro Mihara, Akira Honda
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:Crystals
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Online Access:https://www.mdpi.com/2073-4352/10/9/767
Description
Summary:Details are presented of the development of a coupled modeling simulator for assessing the evolution in the near-field of a geological repository for radioactive waste disposal where concrete is used as a backfill. The simulator uses OpenMI, a standard for exchanging data between simulation software programs at run-time, to form a coupled chemical-mechanical-hydrogeological model of the system. The approach combines a tunnel scale stress analysis finite element model, a discrete element model for accurately modeling the patterns of emerging cracks in the concrete, and a finite element and finite volume model of the chemical processes and alteration in the porous matrix and cracks in the concrete, to produce a fully coupled model of the system. Combining existing detailed simulation software in this way with OpenMI has the benefit of not relying on simplifications that might be necessary to combine all of the modeled processes in a single piece of software.
ISSN:2073-4352