萨北开发区东部过渡带层系互补试验效果评价
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摘要
东部过渡带一条带面积3.5km~2,地质储量1535.9万吨。分基础和加密两套层系开发,共8个油层组51个小层。目前基础井网注水井16口,采油井37口;加密井网注水井45口,采油井44口,总计142口。经过40多年的注水开发,由于单井钻遇油层少,特别是经过加密调整后,剩余油具有性质更差、平面上分布很不均衡、纵向上高度分散的特点。经过多年的注水开发、调整,平面矛盾和层间矛盾都十分突出,开发效果差。为了提高开发效果,有必要开展精细的地质综合评价,确定剩余油分布及其主控因素,开展层系井网互补和适应性研究。合理利用已有井网,进行层系加密、重新组合,进而改善开发效果。
本文提出了适用于过渡带的开发调整思路,即通过加密井网与基础井网的互补,缩小井距完善窄小砂体注采关系,改善过渡带水驱开发效果。经过两年的科研攻关,开辟了层系互补研究区,总结了层系互补的技术界限及注水调整方法,并对实施后的含水、含水上升率、采出程度、采油速度、水驱控制程度等指标变化规律进行研究,总结出过渡带层系互补方法,并进行了推广实施,取得较好的效果。
The eastern belt of transition first belt which area is3.5km2has geological reserves of15359000tons. This area was developed by two layer systems-basic system and encryptssystem. There are8oil groups of51layers. Currently basic well pattern has16water wellsand37oil wells; encrypts well pattern has45water wells and44oil wells, so there are total of142walls. After40years development by water injection, because the single well drilled lessoil layers, especially after infilling adjustment, residual oil has the characteristics of worsenature, plane distribution is very uneven, highly decentralized longitudinal. After years ofwater flooding development and adjustment, flat contradiction and different layerscontradiction are very prominent, so the development effect is poor. In order to improve thedevelopment effect, it is necessary to carry out fine geologic comprehensive evaluation todetermine the remaining oil distribution and its main controlling factors; carry out layerscomplementary test and adaptive research. Rational use existing well pattern to undertakelayers encryption and reset, so as to improve the development effect.
This paper presents an adjusted thought for the development of the transition belt, i.e.through complementary between basic well pattern and encrypts well pattern to narrow thedistance among wells, perfect narrow sand body of injection-production relationship, improvethe development effect of water flooding in transition belt. After two years of scientificresearch, we opened up layers complementary research area and summed up the layerscomplementary technical limit and water injection adjustment method. Then we researchedthe change rules,and summed up the method of transition belt layers complementary. Wepromoted this method and carried it out, and good results were obtained.
本文提出了适用于过渡带的开发调整思路,即通过加密井网与基础井网的互补,缩小井距完善窄小砂体注采关系,改善过渡带水驱开发效果。经过两年的科研攻关,开辟了层系互补研究区,总结了层系互补的技术界限及注水调整方法,并对实施后的含水、含水上升率、采出程度、采油速度、水驱控制程度等指标变化规律进行研究,总结出过渡带层系互补方法,并进行了推广实施,取得较好的效果。
The eastern belt of transition first belt which area is3.5km2has geological reserves of15359000tons. This area was developed by two layer systems-basic system and encryptssystem. There are8oil groups of51layers. Currently basic well pattern has16water wellsand37oil wells; encrypts well pattern has45water wells and44oil wells, so there are total of142walls. After40years development by water injection, because the single well drilled lessoil layers, especially after infilling adjustment, residual oil has the characteristics of worsenature, plane distribution is very uneven, highly decentralized longitudinal. After years ofwater flooding development and adjustment, flat contradiction and different layerscontradiction are very prominent, so the development effect is poor. In order to improve thedevelopment effect, it is necessary to carry out fine geologic comprehensive evaluation todetermine the remaining oil distribution and its main controlling factors; carry out layerscomplementary test and adaptive research. Rational use existing well pattern to undertakelayers encryption and reset, so as to improve the development effect.
This paper presents an adjusted thought for the development of the transition belt, i.e.through complementary between basic well pattern and encrypts well pattern to narrow thedistance among wells, perfect narrow sand body of injection-production relationship, improvethe development effect of water flooding in transition belt. After two years of scientificresearch, we opened up layers complementary research area and summed up the layerscomplementary technical limit and water injection adjustment method. Then we researchedthe change rules,and summed up the method of transition belt layers complementary. Wepromoted this method and carried it out, and good results were obtained.
引文
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[3]赵伟.大庆油田开发论文集[C].北京:石油工业出版社,2001.191.
[4]Miall A D.Reservoir heterogeneities in fluvial sandstones: lesson from outcropstudies[J].AAPG Bulletin,1998,72(6):127~148
[5]Miall A D. Architectural-element analysis: A new method of facies analysis applied tofluvial deposits [J]. Earth Science Review,1985,22(2):261-308.
[6]Jose Alberto Bucheb, Hilton B.Evans,Some Applications of Methods used in ElectrofaciesIdentification.The Log Analyst,January-February19994.
[7]Miall A D. Reservoir heterogeneities in fluvial sandstones: Lesson from outcrop studies[J]. AAPG Bulltin,1988,72(6):687-697.
[8]Lin Changsong, Li Sitian, Li Zhen. Facies architecture, stratigraphic sequences and coaloccurrence in the Late Carboniferous and Early Permian Delta Complexes of the NorthHuabei Basin, China[A], Oti N, Postma G. Geology of Deltas[C]. Rotterdam, Netherland: ABalkema, Pubishers,1995,97-125.
[9]林畅松,刘景彦,张英志等.构造活动盆地的层序地层与构造地层分析—以中国中、新生代构造活动湖盆分析为例[J].地学前缘,2005,12(4):365-374.
[10]邓宏文,美国层序地层学研究中的新学派—高分辨率层序地层学,石油与天然气地质[J],1995,16(2):90-97.
[11]邓宏文,王洪亮,李小孟高分辨率层序地层对比在河流相中的应用,石油与天然气地质[J],1997,18(2):90-95.
[12]李思田,林畅松,解习农,杨士恭,焦养泉.大型陆相盆地层序地层研究—以鄂尔多斯中生代盆地为例[J].地学前缘[J],1995,2(3-4):133-148.
[13]焦养泉,李思田.陆相盆地露头储层地质建模研究与概念体系[J].石油实验地质,1998,20(4):346-353.
[14]Lin Chengyan et al.,The distribution law of remaining oil in the fluvial sandstonereservoir with high water-cut–An example from the Zhong—1district in Gudao oil field[J].Scientia Geologica Sinica,1998,7(3):395-401.
[15]林畅松,张燕梅,刘景彦,庞保成.地学前缘,高精度层序地层学与储层预测[J].地学前缘,2000,7(3):111-117.
[16]张占松,王冠贵,陈偑珍,何宗斌,储层非均质性渗透率预测在分析剩余油富集区中的应用[J],中国海上油气(地质),1997,V.11(2).
[17]刘克奇,杨喜峰,杨春梅.东濮凹陷卫城81断块沙四段第二砂层组储层非均质性研究[J].断块油气田,2004,11(4):55-57.
[18]杨少春.储层非均质性定量研究的新方法[J].石油大学学报:自然科学版,2000,24(1):53~56.
[19侯俊胜,尉中良.自组织神经网络在测井资料解释中的应用[J].测井技术,1996,20(3):197.
[20]王仁铎·利用测井曲线形态特征定量判别沉积相[J].地球科学,1991,(3):303.
[21]杜启振,侯加根,陆击孟.储层微相及砂体预测模型[J].石油学报,1999,20(2):45-52.
[22]李琦.沉积方式与碎屑岩储层的层内非均质性[J].成都理工学院学报,1996,23(增):22-28.
[23]渠永宏,隋新光,刘颖萍,主国涛,江淮友.储层的表征技术—北一区断东西块高分辨率层序地层分析[J].大庆石油地质与开发,2003,22(5):15-18.
[24]Aitken,J.F.&Howell, J.A. High resolution sequence stratigraphy: innovations,applications and future prospects. In: Howell, J.A.&Aitken,J.F.(ed.), High resolutionsequence stratigraphy: innovations and applications[A], Geological Society SpecialPublication,1996,104:1-9.
[25]林畅松,刘景彦,刘丽军,张韬,李喜臣.高精度层序地层分析:建立沉积相和储层规模的等时地层格架[J].现代地质,2002,16(3):276-281.
[26]魏纪德,杜庆龙,林春明等.大庆油田剩余油的影响因素及分布[J].石油与天然气地质,2001,22(1):57-59.
[27]赵翰卿.储层非均质体系、砂体内部建筑结构和流动单元研究思路探讨[J].大庆石油地质与开发,2002,21(6):16-18.
[28]杜庆龙,王元庆等.不同规模地质体剩余油的形成与分布研究[J].石油勘探与开发,2004,31(1):95-99.
[29]柳成志.萨尔图油田中区西部PⅠ油层组精细地质与剩余油分布,大庆石油学院院报,2002,26(4).
[30]王原英.曲流河废弃河道的识别方法及其应用[A].大庆石油学院院报,2007,10(31):65-76.
[31]高树芳、范玲等,测井曲线标准化方法及其对测井解释结果的影响[J],国外测井技术,2008.
[32]邹德江、于兴河等,油藏研究中测井曲线标准化优化方法探讨[J],石油地质与工程,2007.
[33]孙继峰,三角洲前缘相储层非均质性研究[J],内江科技,2008.
[34]穆龙新、贾爱林等,河流一三角洲储层露头和现代河流沉积综合研究第一版[J].北京:大庆石油管理局勘探开发研究院、石油勘探开发科学研究院,1998,5,PⅠ-102.
[35]李庆明,鲁国甫、陈程、姜建伟等,储层建筑结构要素的综合识别[J],河南石油,1998,12(3).
[36]梅红、张厚福,神经网络技术在侧井相分析及水淹层判别中的应用[J],石油大学学报自然科学版(自然科学版),1997,21(3);24-26.
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