The evolution of precipitation distribution in the homogeneous pore structure under Scenario A

The evolution of precipitation distribution in the homogeneous pore structure under Scenario A

<p dir="ltr">We developed a high-performance pore-scale numerical framework accelerated by GPU computing, which couples fluid flow, reactive mass transport, and pore{-}structure evolution. Three representative pore structures (homogeneous, heterogeneous, and natural soil) were utiliz...

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Auteur principal: Chu (22508981) (author)
Publié: 2025
Sujets:
Civil geotechnical engineering
Microbially induced calcite precipitation (MICP); Pore-scale multi-physics modeling; Concentration-limited biomineralization; Precipitation uniformity
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Résumé:<p dir="ltr">We developed a high-performance pore-scale numerical framework accelerated by GPU computing, which couples fluid flow, reactive mass transport, and pore{-}structure evolution. Three representative pore structures (homogeneous, heterogeneous, and natural soil) were utilized to investigate the effect of bacteria-to-Ca2+ ratio (BCR) on the evolution of precipitation patterns under concentration-limited conditions.The files involves .mat and .vtk files, and they are the evolution of precipitation distribution for homogeneous pore structure under scenarios A.</p><p dir="ltr"><br></p>

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