油藏精细描述技术在油田二次开发中的应用
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摘要
新疆克拉玛依砾岩油田是新中国成立后第一个发现的大油田,开发时间长,大多数区块已进入开发后期的非正常开采阶段,面临高含水、高采出、油量递减大、井况恶化、层间和平面矛盾严重等问题。本论文研究目的是通过开展油藏精细描述工作,运用新理论、新方法,重新认识油田,通过对油田实施二次开发,提高采收率,实现油田稳产。
本文以沉积学、油藏工程、数值模拟等学科和技术为指导,以克拉玛依油田二中西区三叠系克上组S_5油藏为研究对象,综合运用岩心、测井、化验分析、生产动态等资料开展研究工作。在对克上组进行精细小层划分、对比和沉积微相研究结果的基础上,建立三维地质模型。以R025、BZSP作为变量进行二元回归,建立研究区合理的孔隙度解释模型,根据测井资料重新处理、解释结果和含油面积的重新划定,对S_5油藏原油地质储量进行核算。通过对静态的地质研究结果与动态生产资料相结合,开展储层特征研究和随机建模工作,进一步明确剩余油分布特征,为二次开发方案的设计提供坚实的技术基础。
通过本项目研究,取得了创新性认识和成果。首次将目的层S_5砂组自上而下划分为S_5~(1-1)、S_5~(1-2)、S_5~(1-3)、S_5~(2-1)、S_5~(2-2)、S_5~(2-3)等6个结构单元,精细刻画了小层格架内沉积砂体的空间组合关系,为井间砂体连通性、油水运动规律以及剩余油分布研究提供了重要的思路和依据。针对老油田缺乏综合测井资料的现状,创新性利用标准测井和岩心分析资料建立了测井解释图版及电性标准,取得明显的效果。利用重新确立的测井解释模型,结合试油和生产井资料,对原油地质储量进行了复算,净增原油地质储量为40.6×10~4t。开发地质综合分析、油藏数值模结果表明,油藏剩余油主要分布在研究区南部和东西部,其中S_5~1砂层是剩余油富集层段。通过数值模拟和井网调整后开发指标预测,油藏最终采收率为45%,剩余可采储量为96.11×10~4t,进一步落实了油藏开发潜力。
通过对二中西区克上组S_5油藏精细描述,明确了S_5油藏剩余油的空间分布规律,提出了二次开发的技术政策及井网调整方案,有效地解决了油田生产急需解决的问题。
Karamay conglomerate oil field is the firstly discovered large oil filed after the founding of New China. Also, it is one of the large rare conglomerate oil fields in the world. For the long time production, most of the wells there have already entered a non-normal exploitation phase of the later primary development facing the serious problems such as high water cut, high recovery, big production decreasing, well condition deteriorating and interformational and planar contradiction. For the purpose of enhanced oil recovery, new theories and new methods will be used to get detailed information of reservoir.
In this paper, Triassic Keshang zone reservoir of in Erzhongxi block in Karamay Oilfield was made as the research object. Subzone correlation was conducted to the main target of S_5 formation of Keshang zone. It was done by comprehensive application of such data as core, logging, mudlog, sample analyzing production performance guided by sedimentology, reservoir engineering and numerical simulation technologies. Sedimentary texture classification was developed on the base of fine interwell layer classification and correlation and study of sedimentary microfacies. Furthermore, petroleum reserve allocation and three-dimensional geologic modeling were done by logging data processing and interpretation in the stratigraphic framework of the constraints. Combined static geologic research results with dynamic production data, reservoir characteristics research and stochastic modeling were conducted and remaining oil distribution was at the same time made definite. All of these provided a solid technical foundation for the redevelopment program design.
Research obtains several innovative achievements. The S_5 sand zone was firstly classified to 6 architectural units of S_5~(1-1)、S_5~(1-2)、S_5~(1-3)、S_5~(2-1)、S_5~(2-2)、S_5~(2-3) from above to below, and was finely described combination relation of inner architectural units, which provided important reference with interwell subzone connectivity, movement law of fluid and remaining oil distribution. Log interpretation chart and electric property standard creative developed by the rare standard logging and core analysis have a good guide of fine reservoir description and parameter calibration to the old oilfield lacking of composite log data. Through the full use of well testing and production performance, initial oil in place (OOIP) in 6 sedimentary texture units was double-calculated and net growth of OOIP came to as much as 40.6×10~4t. Three-dimensional geological reservoir model was built by using of stochastic modeling software, RMS while the production model and injection/production corresponding model were established by using of numerical simulation software, Eclipse. By the application of integrated analysis of development geology and reservoir numerical simulation, remaining oil distribution was ascertained where S_5~1 sand was defined as abundance zone. The ultimate oil recovery was confirmed as 45% and quantity of remaining recoverable oil was 96.11×10~4t. Remaining oil mainly lay in the S_5~1 sedimentary texture unit of the reservoir top.
Technical strategy and development adjustment program were proposed based on fine reservoir description of S5 sand. Also, well pattern adjustment program was optimized here, which had a positive effect to oil field production.
本文以沉积学、油藏工程、数值模拟等学科和技术为指导,以克拉玛依油田二中西区三叠系克上组S_5油藏为研究对象,综合运用岩心、测井、化验分析、生产动态等资料开展研究工作。在对克上组进行精细小层划分、对比和沉积微相研究结果的基础上,建立三维地质模型。以R025、BZSP作为变量进行二元回归,建立研究区合理的孔隙度解释模型,根据测井资料重新处理、解释结果和含油面积的重新划定,对S_5油藏原油地质储量进行核算。通过对静态的地质研究结果与动态生产资料相结合,开展储层特征研究和随机建模工作,进一步明确剩余油分布特征,为二次开发方案的设计提供坚实的技术基础。
通过本项目研究,取得了创新性认识和成果。首次将目的层S_5砂组自上而下划分为S_5~(1-1)、S_5~(1-2)、S_5~(1-3)、S_5~(2-1)、S_5~(2-2)、S_5~(2-3)等6个结构单元,精细刻画了小层格架内沉积砂体的空间组合关系,为井间砂体连通性、油水运动规律以及剩余油分布研究提供了重要的思路和依据。针对老油田缺乏综合测井资料的现状,创新性利用标准测井和岩心分析资料建立了测井解释图版及电性标准,取得明显的效果。利用重新确立的测井解释模型,结合试油和生产井资料,对原油地质储量进行了复算,净增原油地质储量为40.6×10~4t。开发地质综合分析、油藏数值模结果表明,油藏剩余油主要分布在研究区南部和东西部,其中S_5~1砂层是剩余油富集层段。通过数值模拟和井网调整后开发指标预测,油藏最终采收率为45%,剩余可采储量为96.11×10~4t,进一步落实了油藏开发潜力。
通过对二中西区克上组S_5油藏精细描述,明确了S_5油藏剩余油的空间分布规律,提出了二次开发的技术政策及井网调整方案,有效地解决了油田生产急需解决的问题。
Karamay conglomerate oil field is the firstly discovered large oil filed after the founding of New China. Also, it is one of the large rare conglomerate oil fields in the world. For the long time production, most of the wells there have already entered a non-normal exploitation phase of the later primary development facing the serious problems such as high water cut, high recovery, big production decreasing, well condition deteriorating and interformational and planar contradiction. For the purpose of enhanced oil recovery, new theories and new methods will be used to get detailed information of reservoir.
In this paper, Triassic Keshang zone reservoir of in Erzhongxi block in Karamay Oilfield was made as the research object. Subzone correlation was conducted to the main target of S_5 formation of Keshang zone. It was done by comprehensive application of such data as core, logging, mudlog, sample analyzing production performance guided by sedimentology, reservoir engineering and numerical simulation technologies. Sedimentary texture classification was developed on the base of fine interwell layer classification and correlation and study of sedimentary microfacies. Furthermore, petroleum reserve allocation and three-dimensional geologic modeling were done by logging data processing and interpretation in the stratigraphic framework of the constraints. Combined static geologic research results with dynamic production data, reservoir characteristics research and stochastic modeling were conducted and remaining oil distribution was at the same time made definite. All of these provided a solid technical foundation for the redevelopment program design.
Research obtains several innovative achievements. The S_5 sand zone was firstly classified to 6 architectural units of S_5~(1-1)、S_5~(1-2)、S_5~(1-3)、S_5~(2-1)、S_5~(2-2)、S_5~(2-3) from above to below, and was finely described combination relation of inner architectural units, which provided important reference with interwell subzone connectivity, movement law of fluid and remaining oil distribution. Log interpretation chart and electric property standard creative developed by the rare standard logging and core analysis have a good guide of fine reservoir description and parameter calibration to the old oilfield lacking of composite log data. Through the full use of well testing and production performance, initial oil in place (OOIP) in 6 sedimentary texture units was double-calculated and net growth of OOIP came to as much as 40.6×10~4t. Three-dimensional geological reservoir model was built by using of stochastic modeling software, RMS while the production model and injection/production corresponding model were established by using of numerical simulation software, Eclipse. By the application of integrated analysis of development geology and reservoir numerical simulation, remaining oil distribution was ascertained where S_5~1 sand was defined as abundance zone. The ultimate oil recovery was confirmed as 45% and quantity of remaining recoverable oil was 96.11×10~4t. Remaining oil mainly lay in the S_5~1 sedimentary texture unit of the reservoir top.
Technical strategy and development adjustment program were proposed based on fine reservoir description of S5 sand. Also, well pattern adjustment program was optimized here, which had a positive effect to oil field production.
引文
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