Study on Coalbed Methane Reservoir Sensitivity in Ningwu Basin and Drill-in Fluid Technology
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摘要: 对宁武盆地煤层气储层进行了应力敏感、碱敏和水敏评价实验。研究结果表明,宁武盆地煤层气储层为强应力敏感性、中等碱敏性和中等偏强水敏性。提出通过控制钻井液密度和pH值、提高钻井液的封堵性和抑制性,降低钻井液对储层伤害的技术思路,并研究出一套适合煤层气井的封堵成膜CQ-FDC钻井液:(0.2%~0.3%)有机硅G304+(2%~5%)复合盐FHY-2+(0.3%~0.5%)提黏剂G310+(1%~3%)降滤失剂G301+(1%~2%)封堵剂G325+NaOH。室内评价结果表明,该钻井液12 h线性膨胀降低率为71.56%,具有良好的抑制性;储层保护效果好,对储层4#煤和9#煤的伤害率小于15%。该钻井液技术在宁武盆地煤层气井现场试验了6口井,均取得成功,其平均井径扩大率为15.77%,对储层岩心的平均伤害率为16.73%,利于保护储层,且平均机械钻速较高。Abstract: Stress sensitivity, alkali sensitivity and water sensitivity conducted on rock samples taken from coalbed methane reservoir of the Ningwu Basin demonstrate that strong stress sensitivity, moderate alkali sensitivity and moderate-strong water sensitivity exist in the reservoir formations. It is suggested that the drilling fluid used in reservoir drilling in the Basin should have controlled mud weight and pH value, high temporary plugging capacity and inhibitive capacity, which help minimize damage to the permeability of reservoir rocks. A set of filming drill-in fluid, CQ-FDC, suitable for drilling the coalbed methane is as follows:(0.2%-0.3%)G304(organosilicon)+(2%-5%)FHY-2(compound salts)+(0.3%-0.5%) G310(viscosifier)+(1%-3%)G301(filter loss reducer)+(1%-2%) G325(temporary plugging agent)+ NaOH. This drill-in fluid showed in laboratory experiment percent reduction in linear swelling of cores by 71.56% after 12 h of test. Permeability recovery experiment showed that damage of the drill-in fluid to the permeability of coal samples 4# and 9# was less than 15%. CQ-FDC has been successfully applied in 6 coalbed methane wells in Ningwu Basin, average hole enlargement of these wells being 15.77%, and average rate of permeability impairment of the reservoir rocks was 16.73%. Average ROP of the six wells was increased in comparison with offset wells.
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Key words:
- Coalbed methane well /
- Sensitivity of reservoir /
- Drill-in fluid /
- Inhibitive capacity /
- Ningwu Basin
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林海,陈磊,张艺聪,等. 宁武盆地4# 和9# 煤岩坍塌机理[J]. 钻井液与完井液,2014,31(5):14-17. Lin Hai, Chen Lei, Zhang Yicong, et al. Study on collapse of NO.4 and NO.9 coal rocks in Ningwu Basin[J]. Drilling Fluid & Completion Fluid, 2014, 31(5):14-17. 郑军,贺承祖,冯文光,等. 煤气储层应力敏感、速敏和水敏性研究[J]. 钻井液与完井液,2006,23(4):77-78. Zheng Jun, He Chengzu, Feng Wenguang, et al. Sensitivity of stress, velocity and water of coal gas reservoir[J].Drilling Fluid & Completion Fluid, 2006, 23(4):77-78. 汪伟英,肖娜,黄磊,等. 钻井液侵入引起煤岩膨胀对煤储层的伤害[J]. 钻井液与完井液,2010,27(3):20-22. Wang Weiying, Xiao Na, Huang Lei, et al. Damage in coal reservoir caused by swelling after drilling fluid invasion[J].Drilling Fluid & Completion Fluid, 2010,27(3):20-22. 贾军,唐培琴. 钻井液对煤层气储层渗透率的损害[J]. 钻井液与完井液,1995,12(6):1-6. Jia Jun, Tang Peiqin. On the damage of coalbed methane reservoir by drilling fluid[J]. Drilling Fluid & Completion Fluid,1995,12(6):1-6. 侯光久,王生维,张先进. 晋城成庄矿煤层中节理研究及其意义[J]. 天然气工业,2005,25(1):41-43. Hou Guangjiu, Wang Shengwei, Zhang Xianjin. Jincheng Chengzhuang coal mine coal seam in joint research and its significance[J]. Natural Gas Industry, 2005,25(1):41-43. 孟尚志,王竹平,鄢捷年. 钻井完井过程中煤层气储层伤害机理分析与控制措施[J]. 中国煤层气,2007,4(1):34-36. Meng Shangzhi, Wang Zhuping, Yan Jienian. Formation damage factor analysis and control measures for coalbed methane reservoirs during drilling process[J]. China Coalbed Methane, 2007,4(1):34-36. -
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