尕斯库勒油田N_1-N_2~1油藏剩余油分布模式
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摘要
尕斯库勒油田N_1-N_2~1油藏经过多年开采已进入中等含水阶段,寻找剩余油是油藏稳产增产的首要任务。根据尕斯库勒油田N_1-N_2~1油藏的取芯、测井、生产动态等多种资料,采用"单因素解析多因素耦合"的研究思路,在深入解析沉积微相、储层构型、储层非均质性、微构造、井网布置、注采关系等单个因素对剩余油的控制机理后,针对地下不同的情况,筛选出相应的优势控制因素,从多因素耦合的角度对尕斯库勒油田N_1-N_2~1油藏的剩余油分布进行了研究。总结出3种由多种因素共同控制的剩余油分布模式,对进入高含水期油田剩余油的开采有重要意义。构造起伏明显时,沉积微相-微构造-封闭断层-注采关系的控油模式是主要的剩余油分布模式,储层构型-平面非均质性-井网部署的控油模式则适用于构造平缓的部位,而储层构型-夹层-韵律性-注采关系的控油模式是纵向上剩余油分布的主要模式。
After years of mining,N_1-N_2~1 reservoir in Gasikule oilfield has entered the medium water content stage so remaining oil discovery is the key to stabilize and increase production.According to the coring,logging and production performance data of Gasikule oilfield N_1-N_2~1 reservoir and analysis of control mechanism of remaining oil of each factors,such as sedimentary microfacies,architecture,heterogeneity and micro-structure of the reservoir and well network the philosophy of "single-factor analysis multi-factor coupling" is applied to the discovery.Aiming at different situations underground three superior control factors are sort out and three kinds of control model of the remaining oil distribution are summarized.They are important to mine the remaining oil.When the structural fluctuations is evident the remaining oil should be explored in the sedimentary sub-facies-micro-structure-sealing fault-relation of injection and mining oil control model;when the structure is gentle the remaining oil is generally accumulated in the model of reservoir configuration-plan heterogeneity-well net layout;reservoir configuration-interlayerrhythm-relation of injection and mining model is suitable to explore the remaining oil vertically.
After years of mining,N_1-N_2~1 reservoir in Gasikule oilfield has entered the medium water content stage so remaining oil discovery is the key to stabilize and increase production.According to the coring,logging and production performance data of Gasikule oilfield N_1-N_2~1 reservoir and analysis of control mechanism of remaining oil of each factors,such as sedimentary microfacies,architecture,heterogeneity and micro-structure of the reservoir and well network the philosophy of "single-factor analysis multi-factor coupling" is applied to the discovery.Aiming at different situations underground three superior control factors are sort out and three kinds of control model of the remaining oil distribution are summarized.They are important to mine the remaining oil.When the structural fluctuations is evident the remaining oil should be explored in the sedimentary sub-facies-micro-structure-sealing fault-relation of injection and mining oil control model;when the structure is gentle the remaining oil is generally accumulated in the model of reservoir configuration-plan heterogeneity-well net layout;reservoir configuration-interlayerrhythm-relation of injection and mining model is suitable to explore the remaining oil vertically.
引文
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[11]汤小燕,王剑.扶余油田剩余油分布主控因素剖析[J].地质科技情报,2015,34(3):101-106.
[12]胡志成,胡望水,雷秋艳,等.高集油田剩余油影响因素及其分布研究[J].石油天然气学报,2013,35(12):50-55.
[13]封从军,鲍志东,陈炳春,等.扶余油田基于单因素解析多因素耦合的剩余油预测[J].石油学报,2012,33(3):465-471.
[14]李兴国.应用微型构造和储层沉积微相研究油层剩余油分布[J].油气采收率技术,1994(1):68-80+86.
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[17]束青林.孤岛油田馆陶组河流相储层隔夹层成因研究[J].石油学报,2006(3):100-103.
[2]李兴国.对油层微构造的补充说明[J].石油勘探与开发,1993(1):82-89.
[3]樊中海,姜建伟,鲁国甫,等.双河油田油层微构造特征对剩余油分布的影响[J].河南石油,1997(5):9-13.
[4]何辉,宋新民,蒋有伟,等.砂砾岩储层非均质性及其对剩余油分布的影响---以克拉玛依油田二中西区八道湾组为例[J].岩性油气藏,2012,24(2):117-123.
[5]刘文超.码头庄油田储层非均质性及其与剩余油分布的关系[J].岩性油气藏,2012,24(2):111-116.
[6]朱志良,熊迪,岳渊洲,等.克拉玛依油田一东区克拉玛依组沉积相与剩余油分布关系研究[J].岩性油气藏,2013,25(3):112-118.
[7]赵彬,侯加根,张国一,等.哥伦比亚Velasquez油田始新统Guaduas组沉积微相与剩余油分布[J].中南大学学报(自然科学版),2011,42(5):1384-1392.
[8]岳大力,吴胜和,刘建民.曲流河点坝地下储层构型精细解剖方法[J].石油学报,2007(4):99-103.
[9]徐中波,申春生,陈玉琨,等.砂质辫状河储层构型表征及其对剩余油的控制---以渤海海域P油田为例[J].沉积学报,2016,34(2):375-385.
[10]黄石岩.河流和三角洲储层剩余油分布模式---以渤海湾盆地胜坨油田为例[J].石油实验地质,2007(2):167-171.
[11]汤小燕,王剑.扶余油田剩余油分布主控因素剖析[J].地质科技情报,2015,34(3):101-106.
[12]胡志成,胡望水,雷秋艳,等.高集油田剩余油影响因素及其分布研究[J].石油天然气学报,2013,35(12):50-55.
[13]封从军,鲍志东,陈炳春,等.扶余油田基于单因素解析多因素耦合的剩余油预测[J].石油学报,2012,33(3):465-471.
[14]李兴国.应用微型构造和储层沉积微相研究油层剩余油分布[J].油气采收率技术,1994(1):68-80+86.
[15]Miall A D.Architectural-element analysis:a new method of facies analysis appied to fluvial deposits[J].Earth Science Review,1985,22:261-308.
[16]Miall A D.Reservoir heterogeneities in fluvial sandstone:Lessons fromoutcrop studies[J].AAPG Bulletin,1988,72(6):682-697.
[17]束青林.孤岛油田馆陶组河流相储层隔夹层成因研究[J].石油学报,2006(3):100-103.
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