Lithologic Reservoirs ›› 2010, Vol. 22 ›› Issue (Z1): 85-88.doi: 10.3969/j.issn.1673-8926.2010.Z1.018

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Study on CO2 storage potential in saline aquifer and its influencing factors

WANG Tao   

  1. China Oilfield Services Limited, Beijing 101149, China
  • Online:2010-12-15 Published:2010-12-15

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Abstract:

Huge number of greenhouse gas emission of carbon dioxide leads to global warming, which has put much pressure on both human being’s survival and social economy development. If the storage place and storage way are proper, the storage volume will be very huge. The saline aquifer in deep sedimentary basin is unsuitable for exploration, but it can be used to storage CO2. Based on the mechanism of CO2 storage in saline aquifer, the calculation formula for CO2 storage is obtained, and then the strata and fluid for CO2 storage in saline aquifer are analyzed by numerical simulation,and the influencing factors are systematically evaluated.

Key words: sealed formation, abnormal pressure, tight sandstone gas, reservoir-forming

[1] 段振豪,孙枢,张驰,等.减少温室气体向大气层的排放———CO2地下储藏研究[J].地质评论,2004,50(5):514-519.
[2] 曾荣树,孙枢,陈代钊,等.减少二氧化碳向大气层的排放———二氧化碳地下储存研究[J].中国科学基金,2004,18(4):196-200.
[3] 强薇,李义连,文冬光,等.温室性气体地质处置研究进展及其问题[J].地质科技情报,2006,25(2):83-88.
[4] 夏为卫,王新海,雷娟青.低渗透油藏注二氧化碳气体的井网优选研究———以松辽盆地南部 H 油田 L 油藏为例[J].岩性油气藏,2009,21(1):105-107.
[5] 李小春,小出仁,大隅多加志.二氧化碳地中隔离技术及其岩石力学问题[J].岩石力学与工程学报,2003,22(6):989-994.
[6] Hitchon B,Gunter W D,Gentzis T,et al. Sedimentary basins and greenhouse gases:A serendipitous association[J]. Energy Conversion and management,1999,40:825-843.
[7] Soong Y,Goodman A L, McCarthy-Jones J R,et al. Experimental and simulation studies on mineral trapping of CO2 with brine[J].Energy Conversion and management,2004,45:1 845-1 859.
[8] Gentzis T. Subsurface sequestration of carbon dioxide—an overview from an Alberta Canada perspective [J]. International Journal of Coal Geology,2000,43:287-305.
[9] Bachu S. Screening and ranking of sedimentary basins for sequestration of CO2 in geological media in response to climate change[J].Environmental Geology,2003,44:277-289.
[10] 吴新伟,李怀杰.靖安油田五里湾一区大型压裂低渗油藏数值模拟研究[J].岩性油气藏,2008,20(4):123-127.
[11] 雷芳菲,贺成才.岩石压缩系数的计算及其对气藏数值模拟结果的影响研究[J].岩性油气藏,2009,21(3):134-137.
[12] 段天向,刘晓梅,张亚军,等.Petrel 建模中的几点认识[J].岩性油气藏,2007,19(2):102-107.
[13] 李善鹏,吴凯,方艳兵.特低渗透油藏启动压力现象研究———以侯市地区为例[J].岩性油气藏,2009,21(1):125-127.
[14] 王辉,王凤琴.甘谷驿油田共大滩区延长组长6 段非均质模式与油气分布[J].岩性油气藏,2008,20(2):48-53.
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