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Numerical Modeling of CO2 Sequestration in the Saline Aquifer of  Yancheng Formation in Subei Basin Using TOUGHREACT-MP

Mo Shaoxing1,Long Xingjiao1,Li Ying1,Zheng Fei1,Shi Xiaoqing1,Zhang Keni2,Zhao Liang1   

  1. 1.Key Laboratory of Surficial Geochemistry, Ministry of Education/School of Earth Sciences and Engineering, Nanjing University,Nanjing210023, China;
    2.College of Water Sciences, Beijing Normal University, Beijing100875, China
  • Received:2013-12-23 Online:2014-09-26 Published:2014-09-26

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Abstract:

The two-dimensional radial model of CO2-water-rock reaction in carbon sequestration of Yancheng Group under section sandstone layer in Subei basin is built based on TOUGHREACT parallel version. The mineral sequestration potential in reservoir is evaluated. The influence of grid subdivision precision and anisotropy of reservoir on mineral sequestration simulations is analyzed. The simulation results show that dawsonite, calcite and siderite, significantly precipitated in the process of CO2 sequestration. The total mass of CO2 sequestrated by mineral trapping is as high as 34.0% after 5 000 a. The grid resolution has little impact on the reaction path of minerals sequestration, however, the total amount of CO2 mineral sequestration with coarser grid is overestimated comparing to that with finer grid. The discretion of the vertical permeability (kv) would lead to a more rapid horizontal migration of injected CO2 to the middle and bottom, which results in an incretion in solubility trapping and mineral trapping for a short period of time. However, for a long term, with the increasing instability of the system due to CO2 dissolution, the vertical convective mixing becomes significant, it turns out to be a significant inhibition of convection by decreasing kv. It shows that the mineral sequestration calculated by middle kv value model is higher than the larger kv and smaller kv value model after 1 000 a.

Key words: mineral sequestration of CO2, grid subdivision precision, anisotropy, Subei basin

CLC Number: 

  • P641.69
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