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Fractal Evidence Of Reactive Transport In Geologic Systems Based On Multiphase Flow Hydraulic Models Part Ii: The Biogeochemical Aspect

Author

Listed:
  • ADANGO MIADONYE

    (Department of Chemistry, School of Science and Technology, Cape Breton University 1250 Grand, Lake Road, P.O. Box 5300, Sydney, NS, Canada B1M 1A2, Canada)

  • MUMUNI AMADU

    (Department of Chemistry, School of Science and Technology, Cape Breton University 1250 Grand, Lake Road, P.O. Box 5300, Sydney, NS, Canada B1M 1A2, Canada)

Abstract

In the petroleum and soil science literature, fractal models of porous systems abound. Consequently, any process, be it physicochemical or geomechanical, that imparts pore structure will equally impact the fractal nature of the system. Several studies have reported the effect of physicochemical processes, such as the water–rock interactions, on the fractal dimension of the porous system using different approaches involving sophisticated instrumentation. Others have also reported the effect of geomechanical processes such as compaction on fractal dimension using similar approaches. To the best of our knowledge, none or little has been reported regarding the use of multiphase flow hydraulic models for revealing the effect of water–rock interactions on the fractal dimension and pore size distribution of the porous system. Consequently, to fill the knowledge gap in this regard, data on two-phase flow of acid gas and brine in porous media have been used to show that the fractal dimension and pore size distribution of the porous system change in response to water–rock interactions. In view of the injection of acid gas, such as anthropogenic carbon dioxide, into saline aquifers being a feasible means for carbon immobilization by mineral carbonation and biogeochemical means, the effect of change in the fractal properties of the porous system on the microbial transport and distribution in porous system has also been reviewed in relationship to the principal findings of this paper. Most importantly, the results of this study show that data on two-phase flow in porous media involving acid gas and brine can be used to prove changes in the fractal nature of the porous system, and this change can also impact subsurface distribution of methanogens that have the potential to trap carbon by methanogenesis.

Suggested Citation

  • Adango Miadonye & Mumuni Amadu, 2022. "Fractal Evidence Of Reactive Transport In Geologic Systems Based On Multiphase Flow Hydraulic Models Part Ii: The Biogeochemical Aspect," FRACTALS (fractals), World Scientific Publishing Co. Pte. Ltd., vol. 30(09), pages 1-17, December.
  • Handle: RePEc:wsi:fracta:v:30:y:2022:i:09:n:s0218348x22501821
    DOI: 10.1142/S0218348X22501821
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