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A new geochemical reactive transport model for sandstone acidizing
Khojastehmehr, M ; Sharif University of Technology | 2022
102
Viewed
- Type of Document: Article
- DOI: 10.1016/j.cageo.2022.105178
- Publisher: Elsevier Ltd , 2022
- Abstract:
- Understanding the chemistry of sandstone acidizing is important in designing an effective treatment for subsurface rock formations. The complex chemistry of sandstone systems leads to the precipitation of minerals that contribute to formation damage. Thus, monitoring the concentration and location of precipitates is necessary. In this work, a continuum-scale sequential implicit LEA/PLEA reactive transport model is developed and programmed through coupling OpenFOAM and Reaktoro to improve the model prediction. The proposed LEA/PLEA models are compared for core acidizing simulations at relatively high and low Damköhler numbers. We found that the common assumption of kinetically-controlled flow regimes in sandstone acidizing is valid even at practically high Damköhler numbers. The code is verified against a reference reactive transport code. Our results are consistent with two experimental research conducted on sandstones and shales. Finally, we demonstrate the role of precipitation mechanisms in permeability alteration by taking the example of silica and discussing how different arrangements of silica precipitates impact permeability. © 2022 Elsevier Ltd
- Keywords:
- Computational fluid dynamics ; Geochemistry ; Sandstone acidizing ; Codes (symbols) ; Sandstone ; Silica ; Transport properties ; Acidizing ; Complex chemistry ; Formation damage ; Geochemicals ; Low Damkohler number ; Model prediction ; OpenFOAM ; Reactive transport modelling ; Rock formations ; Modeling ; permeability ; Precipitation (chemistry) ; Reactive transport ; Sediment chemistry ; Reactive transport modeling
- Source: Computers and Geosciences ; Volume 166 , 2022 ; 00983004 (ISSN)
- URL: https://www.sciencedirect.com/science/article/abs/pii/S0098300422001315