压裂液对煤储层伤害实验及应用——以沁水盆地西山区块为例

Experiment and application of fracturing fluid damage to coal reservoir: a case of Xishan block in Qinshui basin

  • 摘要: 为分析压裂液对西山区块煤储层的伤害,采用工作液评价实验方法,研究了压裂液基液、黏土稳定剂和表面活性剂对煤储层的影响。研究结果表明,现场所用的活性水压裂液对煤储层损害率最高为37.2%;未过滤的含杂质的河水要比过滤的河水和井水对煤层的伤害大得多;黏土稳定剂KCl的添加量应根据水敏性伤害程度确定,研究区黏土稳定剂合适的添加量应该为2%~4%;为保证压裂液尽快返排,压裂液中需添加表面活性剂,表面活性剂的添加量为0.2%较好,实际应用时可做适度调整,但用量不要超过1.4%。在实际生产中采用该方法对压裂液进行了优化,压裂液优化后的煤层气井的煤层气产气量要比未优化的井日产气量高300~500 m3

     

    Abstract: In order to analyse the fracturing fluid damage to the Xishan coal reservoir, used the working fluid evaluate methods was used, the effect of fracturing fluid, clay stabilizer and surfactant on coal reservoir was studied. The results show that the active hydraulic fracturing fluid used in the field does harm to the coal reservoir, and the damage rate is 37.2%, the clean degree of fracturing fluid base has great influence on the degree of damage of coal seam, and the damage of theun filtered water is much bigger than that of the filtered water and well water, clay stabilizer KCl dosage should be determined according to the water-sensitive damage degree, the appropriate adding amount of clay stabilizer in the study area should be 2%~4%, in order to ensure that the fracturing fluid returns to the exhaust as soon as possible, the surface active agent should be added in the fracturing fluid, the amount, surfactant should be better at 0.2%, the actual application can be adjusted, but not more than 1.4%.In the actual production of fracturing fluid is optimized by the method, the gas production of optimized fracturing fluid CBM wells is 300~500 m3 higher than that of not optimized gas wells.

     

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