摘要
为了提高四川盆地南部威荣气田下志留统龙马溪组页岩储层压裂形成的人工裂缝复杂程度和压后产能,通过对前期15口水平井人工裂缝复杂程度定量评价、G函数的压裂影响因素研究以及提升裂缝复杂程度措施研究,确定了下一步合理的压裂参数和暂堵工艺。研究结果表明:①威荣气田压裂形成的人工裂缝多为二类复杂缝,G函数波动系数与天然气无阻流量具有较强的正相关性,复杂裂缝比例越大、复杂程度越高,压后效果越好;②提高压裂规模和排量,开展暂堵有助于提高人工裂缝的复杂程度;③合理的用液强度为28 m^(3)/m左右,合理的加砂强度为2.4~2.6 m^(3)/m,施工排量应提升至16 m^(3)/min以上;④暂堵工艺应以缝口为主、以缝内为辅;⑤基于研究结果形成的主体压裂工艺现场应用18口水平井,裂缝复杂性得到较大程度提高,压后天然气无阻流量提升超20%,取得较好的增产效果。结论认为,G函数分析在页岩气压裂裂缝复杂程度的评价和工艺参数优化方面具有较好的适应性,对类似气田的开发具有一定的借鉴意义。
In order to improve the complexity of hydraulic fractures and the post-frac productivity in shale reservoirs of Longmaxi Formation,Weirong gas field,southern Sichuan Basin,the complexity in the previous 15 horizontal wells was evaluated quantitatively and fracturing controls on G function were discussed to make measures against this complexity improvement.Furthermore,parameters in the following fracturing and a temporary plugging process were determined.Results show that(i)the induced fractures in this field are mostly typeⅡcomplex ones.The fluctuation coefficient of G function is in strongly positive correlation with absolute open flow(AOF).The higher the proportion and complexity of complex fractures,the better the post-frac effect;(ii)enlarging fracturing scale and displacement and performing temporary plugging are conducive to the complexity improvement;(iii)the reasonable fracturing-fluid and sanding intensity is 28 m^(3)/m and 2.4-2.6 m^(3)/m,respectively,and the construction displacement shall be increased to over 16 m^(3)/min;(iv)the plugging should be carried out dominantly at the fracture opening and secondarily in the fractures;and(v)the elemental fracturing process formed has been applied to 18 horizontal wells,whose stimulation effect is remarkable with a great increase in the complexity and the AOF increased by over 20%.In conclusion,G function is better applicable to evaluating the fracture complexity and optimizing technological parameters,and can be used for references on similar gas fields.
作者
尹琅
刘琦
宋燕高
YIN Lang;LIU Qi;SONG Yan'gao(Petroleum Engineering Technology Institute,Sinopec Southwest Oil&Gas Company,Deyang,Sichuan 618000,China)
出处
《天然气技术与经济》
2024年第4期59-66,共8页
Natural Gas Technology and Economy
基金
中国石油化工股份有限公司科技部项目“威荣深层页岩气立体开发优化技术研究”(编号:P22041)。
关键词
页岩气
压裂
G函数
人工裂缝
复杂程度
Shale gas
Fracturing
G function
Hydraulically induced fracture
Complexity
