Pore scale modelling of calcite cement dissolution in a reservoir sandstone matrix

机译：储层砂岩基质中方解石水泥溶解的孔比例建模

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Long-term evolution of permeability and tortuosity due to porosity changes evoked by reactivity of aqueous solutions is of paramount importance for predicting water-rock interaction. This challenge is best tackled by introducing reactive transport modelling on the pore-scale, where the modeling domain is a high-resolution tomographic image of the porous media. We suggest to use a voxel based Navier-Stokes-Brinkman solver in a finite volume formulation coupled to the thermodynamic equilibrium code PhreeqC. High-performance parallelized computations using this coupled numerical reactive transport solver are performed directly on the voxel grid of the segmented micro-CT scans. Retreat of the calcite cement in a sandstone matrix due to dissolution reactions can be directly visualized by digital rock physics experiments.

机译：由于水溶液反应性引起的孔隙率变化引起的长期演变是由水溶液的反应性引起的，对于预测水岩相互作用是至关重要的。通过在孔隙标尺上引入反应性传输建模，最佳地解决了这一挑战，其中建模领域是多孔介质的高分辨率断层图像。我们建议使用基于Voxel的Navier-Stokes-Brinkman求解器，其耦合到热力学平衡代码Phreeqc。使用该耦合数值反应性求解器的高性能并行计算直接在分段的微型CT扫描的体素网格上进行。由于溶解反应，砂岩基质中的方解石水泥的撤退可以通过数字岩体物理实验直接可视化。

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《International Symposium on Water-Rock Interaction》|2019年|p1-643|共5页
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Christian Hinz; Frieder Enzmann; Michael Kersten;
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1. Pore scale modelling of calcite cement dissolution in a reservoir sandstone matrix [J] . Christian Hinz, Frieder Enzmann, Michael Kersten E3S Web of Conferences . 2019,第4期

机译：方解石水泥在砂岩基质中溶解的孔隙尺度模拟
2. A new numerical model for pore scale dissolution of calcite due to CO2 saturated water flow in 3D realistic geometry: Principles and first results [J] . Flukiger F., Bernard D. Chemical geology . 2009,第1a2期

机译：在3D逼真的几何中因CO2饱和水流引起的方解石孔尺度溶解的新数值模型：原理和初步结果
3. Pore fluid evolution, distribution and water-rock interactions of carbonate cements in red-bed sandstone reservoirs in the Dongying Depression, China [J] . Wang Jian, Cao Yingchang, Liu Keyu, Marine and Petroleum Geology . 2016,第Null期

机译：东营pression陷红层砂岩储层中碳酸盐胶结物的孔隙流体演化，分布及水岩相互作用
4. Pore scale modelling of calcite cement dissolution in a reservoir sandstone matrix [C] . Christian Hinz, Frieder Enzmann, Michael Kersten International Symposium on Water-Rock Interaction . 2019

机译：储层砂岩基质中方解石水泥溶解的孔比例建模
5. Modeling and simulation of the pore-scale multiphase fluid transport in shale reservoirs: A molecular dynamics simulation approach. [D] . Pawar, Gorakh. 2016

机译：页岩储层中孔隙尺度多相流体传输的建模与模拟：一种分子动力学模拟方法。
6. Thermodynamic Simulation of Carbonate Cements-Water-Carbon Dioxide Equilibrium in Sandstone for Prediction of Precipitation/Dissolution of Carbonate Cements [O] . Yiping Duan, Mingshi Feng, Xinyan Zhong, 2011

机译：碳酸盐水泥-砂岩中水-二氧化碳平衡的热力学模拟，预测碳酸盐水泥的沉淀/溶解
7. The Stable Isotope Composition of the Calcite Cement in the Fluvio-Deltaic Reservoir Sandstones of the Lower Acacus Formation, Ghadames (Hamada) Basin, NW Libya [O] . 2017

机译：富钴结核储层砂岩中稳定同位素组成，下亚汞储层砂岩，Ghadames（Hamada）盆地，NW利比亚
8. Prediction of calcite Cement Distribution in Shallow Marine Sandstone Reservoirs using Seismic Data [R] . Bakke, N. E. 1996

机译：利用地震资料预测浅层海相砂岩储层方解石水泥分布

Pore scale modelling of calcite cement dissolution in a reservoir sandstone matrix

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