Acta Scientiarum Naturalium Universitatis Pekinensis ›› 2019, Vol. 55 ›› Issue (1): 148-158.DOI: 10.13209/j.0479-8023.2018.037

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Physicochemical Estimation of Geochemical Conditions in TSR Reaction

TAN Yu, GUAN Ping, PANG Lei, LIU Peixian, ZHOU Yejun   

  1. School of Earth and Space Sciences, Peking University, Beijing 100871
  • Received:2018-01-24 Revised:2018-06-04 Online:2019-01-20 Published:2019-01-20
  • Contact: GUAN Ping, E-mail: pguanl(at)pku.edu.cn

TSR反应中地球化学条件的热力学估算

谭宇, 关平, 庞磊, 刘沛显, 周叶骏   

  1. 北京大学地球与空间科学学院, 北京 100871
  • 通讯作者: 关平, E-mail: pguanl(at)pku.edu.cn
  • 基金资助:
    国家科技重大专项(2011ZX05009-002-403, 2011ZX05004-004-005)和国家重点基础研究发展计划(2012CB214801)资助

Abstract:

According to the principle of thermodynamics, thermodynamic phase diagrams are calculated and drawn, the possibility, direction and physicochemical conditions of the two chemical reaction processes of TSR reaction and dissolution of carbonate rocks by H2S are determined, and the direct reduction of CaSO4 (or SO42−) to H2S at different temperatures is obtained. It shows that when CaCO3 is at the boundary between precipitation and dissolution in geological system, a small amount of acidic fluid will make the precipitated CaCO3 dissolved, and when the concentration of Ca2+ and CO32− increases, a new equilibrium of precipitation and dissolution will be achieved. When the depth of dissolution of CaCO3 is about 1000 m, H2S achieves the best effect. Only long-term and repeated TSR reactions can produce sufficient acidic fluid (H2S), which is the necessary condition for dissolution modification of carbonate reservoirs to achieve obvious results.

Key words: TSR reaction, H2S, carbonate reservoir, thermodynamic phase diagram

摘要:

从化学热力学的角度, 通过热力学计算和绘制热力学相图, 针对硫酸盐热化学还原反应(TSR反应)和H2S对碳酸盐岩的溶蚀两个化学反应过程, 判别其发生的可能性、方向和物理化学条件, 求取不同温度下CaSO4 (或SO42−)被直接还原为H2S的离子浓度、pH和氧化还原条件; 指出在地质体系中, 当CaCO3处于沉淀–溶解的边界时, 少量酸性流体的加入就会使沉淀转为溶解, 而当Ca2+和CO32−浓度升高时, 又达到新的沉淀–溶解平衡。H2S对CaCO3的溶蚀在深度约为1000 m时达到最佳效果, 长期、多次的TSR反应才能产生充足的酸性流体(即H2S), 这是溶蚀改造碳酸盐岩储层达到明显效果的必要条件。

关键词: TSR反应, H2S, 碳酸盐岩储层, 热力学相图