基于灰色关联的粒径组合支撑剂导流能力实验EXPERIMENT ON THE FLOW CONDUCTIVITIES OF THE PROPPANTS WITH DIFFERENT SIZE COMBINATIONS BASED ON THE GRAY CORRELATION ANALYSIS
曲占庆,王冰,杨阳,何利敏,姚佳,张芳
QU Zhanqing,WANG Bing,YANG Yang,HE Limin,YAO Jia,ZHANG Fang
摘要(Abstract):
根据SY/T 6302—2009压裂支撑剂充填层导流能力评价推荐方法,利用FCES-100裂缝导流仪在室内条件下优选出适合现场压裂的典型支撑剂类型和粒径组合方式,并采用灰色关联分析方法确定各种因素对导流能力的影响程度。研究表明:对于单一粒径支撑剂,当铺砂强度一定时,随闭合压力增大,支撑剂导流能力呈下降趋势;而当闭合压力一定时,支撑剂铺砂强度越高,导流能力越大。不同粒径支撑剂进行混合后,随着小粒径支撑剂比例的增加,在高闭合压力下支撑剂破碎率逐渐降低。基于灰色关联分析结果,对不同粒径支撑剂导流能力的影响因素主次进行排序,为现场压裂施工提供了参考依据。
According to the evaluating and recommending method of the conductivity for the filled layer by SYT6302-2009 fracturing proppant,the typical proppant type and grain size combination suitable to the field fracturing have been optimized by means of FCES-100 fracture conductivity instrument in the laboratory condition,and moreover the influence degrees of each factor on the conductivity are determined by the grey correlation method.The studies show that for the individual particle size proppant,when the sanding strength is certain,the flow conductivity of the proppant decreases with the increase of the closure pressure;If the closure pressure is determined,the stronger the strength is,the higher the conductivity will be.Mter the blending of different particle-size proppants,under the high closure pressure,the greater the proportion of small particle-size proppants is,the lower the proppant crushed rate will be.Based on the gray correlation analysis results,the orders of the primary and secondary influencing factors of the flow conductivity for different particle-size proppants are arranged,thus the reference evidences are provided for the field fracturing operation.
关键词(KeyWords):
支撑剂;导流能力;粒径组合;灰色关联分析
proppant;flow conductivity;particle-size combination;grey correlation analysis
基金项目(Foundation): 国家重大专项:“大型油气田及煤层气开发”(2011ZX05051)
作者(Author):
曲占庆,王冰,杨阳,何利敏,姚佳,张芳
QU Zhanqing,WANG Bing,YANG Yang,HE Limin,YAO Jia,ZHANG Fang
参考文献(References):
- [1]肖勇军,郭建春,王文耀,等.不同粒径组合支撑剂导流能力实验研究[J].断块油气田,2009,16(3):102-104.
- [2]中国石油天然气总公司.SY/T6302-2009压裂支撑剂充填层短期导流能力评价推荐方法[S].北京:石油工业出版社,2009.
- [3]杨涛,肖立国.榆树林油田优化压裂研究与实践[J].大庆石油地质与开发,2003,22(3):72-74.
- [4]张毅,马兴芹,靳保军.压裂支撑剂长期导流能力试验[J].石油钻采工艺,2004,26(1):59-61.
- [5]金智荣,郭建春,赵金洲,等.不同粒径支撑剂组合对裂缝导流能力影响规律实验研究[J].石油地质与工程,2007,21(6):88-90.
- [6]陈田勇,周承富,吕选鹏,等.黄骅凹陷超深层火成岩压裂技术研究[J].特种油气藏,2011,18(2):126-128.
- [7]李阳,于永波,尹喜永.大庆低渗透油田增效压裂技术研究[J].特种油气藏,2005,12(2):65-67.
- [8]冯其红,陈朝辉,李春芹.特低渗透压敏油藏产量递减规律数值模拟[J].大庆石油地质与开发,2008,27(4):45-49.
- [9]齐宁,周福建,高成元,等.涩北气田出砂影响因素的灰色关联分析[J].特种油气藏,2010,17(5):100-104.
- [10]孙敬,刘德华,张亮,等.低渗透油藏递减影响因素的灰色关联分析[J].特种油气藏,2012,19(2):90-93.
- [11]刘宏,谭秀成,周彦,等.基于灰色关联的复杂碳酸盐岩测井岩相识别[J].大庆石油地质与开发,2008,27(1):123-125.
- [12]曲占庆,杨阳,何利敏,等.基于灰色关联分析的出砂室内实验研究[J].贵州大学学报:自然科学版,2012,29(4):42-44.