Technology and Practice of Stabiliing Oil Production and Controlling Water Cut in Kalamkas Oilfield in Central Asia

In this paper, by in-depth geological research of Kalamkas Oilfield in Central Asia, the geological body has been re-ascertained; combined with fine study of reservoir engineering, based on the understanding of the distribution of remaining oil horizontal wells have been given full play to stabilizing oil production and controlling water cut, reducing the producing pressure drop, improving well productivity and other advantages, and the development and deployment has been optimized; horizontal wells have been applied to solve problems such as old well casing damages, shutting down wells, low-productivity and low- efficiency wells, and high water cut wells to improve the utilization rate of old wells; through separate layer system improved injection production pattern, adjustment wells have been optimized and deployed, and part measures wells have been preferably selected to tap the residual oil improve the degree of reserves control realize the stabilization of oil production and control of water cut in an old oilfield, and further improve the development effects.

中国石化油藏地球物理二十年发展与思考

油藏地球物理技术是综合应用多种地球物理资料与油藏动静态信息进行复杂油藏精细表征和动态监测的跨学科技术,对于提高油藏的储量动用程度和提高采收率具有重要的意义,是当前地球物理技术的重要发展方向。系统回顾了中国石化油藏地球物理提出的背景和过去二十年的发展历程,梳理了油藏地球物理技术系列,总结了在油藏地球物理基础研究、井中地球物理技术、多尺度资料联合反演、地球物理约束确定性建模、时移地震剩余油气预测、地震地质工程一体化、微地震油藏监测等方面的技术创新和应用效果。面对中国油气田勘探开发的深层、深水、非常规及老油田(“两深一非一老”)形势和一体化、智能化、绿色化挑战,油藏地球物理在油气产业技术致胜阶段仍然大有可为,要持续创新油藏地球物理技术,井、震、动、模一体化联合和人工智能应用,构建高水平的油藏地球物理勘探开发一体化、地质工程一体化解决方案,支撑油藏全生命周期建设。

复杂断块油藏井震联合建模数模一体化技术研究

【目的】为解决复杂断块油藏面临的油藏构造碎小、低序级断层数量多、准确识别难度大和油藏描述效率低等问题。【方法】充分应用地震资料、测井数据等储层信息,开展井震联合建模数模一体化技术研究,利用三维地震资料,结合现场生产动态响应情况开展断层精细解释、断裂系统精细刻画,准确落实低序级断层发育及组合方式,在精细地层对比研究的基础上,建立三维地质模型,利用数值模拟与模型互检,迭代修正更新模型,尽可能保证模型精准,以便厘清剩余油分布规律,指导后期开发。【结果】该技术在胜利油田复杂断块区D块、L块等多个区块先后进行了应用,结果显示,断点吻合率均达到100%,数模含水拟合率达到90%以上。【结论】该技术能够实现复杂断块构造的精细描述,对特高含水期自然断块剩余油潜力认识、提高老区采收率具有重要意义,对其他同类型油藏的剩余油挖潜具有指导意义和良好的推广价值。

长庆安塞油田剩余油开发区DAS井地联采技术探索与实践

中国石油集团东方地球物理勘探有限责任公司结合长庆安塞油田开发区“三低”和“双复杂”的典型特点,面对老油田剩余油预测突出问题,从井地、井震协同一体化研究思路出发,开展国内首次面向开发区剩余油预测的多井DAS三维井地联采技术探索与实践,通过井地联合勘探实现地面地震测量和井中地震测量的优势互补,取得了良好成果。(1)通过井震同步井驱处理,三维地震资料保真度和分辨率明显提升,有效频带拓宽8%以上。(2)通过井地、井震一体化油藏静态描述剩余油预测研究,减少了单一地面地震解释成果多解性,可分辨更小地质单元,为油田精细开发提供了可靠的资料依据。(3)DAS三维井地联采配套技术支撑了安塞油田新增地质储量,并通过低产低效井组挖潜措施调整,提产效果明显。通过本次研究得出,井地联合立体探测是提升油田开发过程中微幅构造刻画和储层、流体预测精度的有效技术手段,形成的技术可推动物探技术向油田开发延伸、向井地立体探测发展,可为老油田稳产增效、推进高效开发提供支撑。

鄂尔多斯盆地超低渗油藏注采调整技术

超低渗油藏储层物性差、非均质性强、注采比高、地层压力保持水平低,部分油藏驱替方案构建难度大、注入水易于沿裂缝窜留,因而水驱波及体积小且采收率低。为了解决该难题,开展了长8段超低渗油藏注采调整政策综合研究。首先对单砂体的测井识别标志、叠置样式、侧向接触模式和见水见效特征进行精细刻画,裂缝、高渗带对水驱有双重作用。通过微观可视化仿真模型对不同孔隙结构下剩余油赋存模式进行研究,超低渗油藏剩余油分布模式主要有分散状及连片状形式,其分布受孔喉尺寸、并联结构、驱替压差、毛管力等因素影响。最终将研究结果应用于地质建模,指导油藏小层精细注采调整,确定了周期注水方式和周期,形成了超低渗油藏全生命周期精细注采技术。将该技术指导华庆、环江油田超低渗油藏注采调整1.5万次左右,采油速度平均增加0.2%、缓解油藏递减1.2%、年均累计增油5万t以上。

海上双方位非重复性时移地震响应研究及应用

时移地震是剩余油挖潜最直接有效的技术手段,中国大多数老油田包括南海东部惠州A油田并没有实施时移地震采集。为了弄清已经进入特高含水期、高采出程度开发后期惠州A油田油水分布及运动规律,在已经正交采集一次三维资料和二次三维资料的条件下,以数学运算方法对一次三维和二次三维资料实施双方位非重复性时移地震处理,达到了减少时移地震采集成本投入和预测剩余油分布的目的。经过钻井证实,剩余油预测结果与钻探结果吻合,该方法可供海上油田推广借鉴。

Integrating the geology, seismic attributes, and production of reservoirs to adjust interwell areas: A case from the Mangyshlak Basin of West Kazakhstan

Dynamic models of the seismic,geological,and flow characteristics of a reservoir are the main tool used to evaluate the potential of drilling new infill wells.Static geological models are mainly based on borehole data combined with dynamic analyses of production dynamics.They are used to determine the redevelopment of and adjustments to new drilling locations;however,such models rarely incorporate seismic data.Consequently,it is difficult to control the changes in geological models between wells,which results in the configuration of well positions and predicted results being less than ideal.To improve the development of adjusted areas in terms of their remaining oil contents,we developed a new integrated analysis that combines static sediment modelling,including microfacies analysis(among other reservoir and seismic properties),with production behaviours.Here,we illustrate this new process by(1)establishing favourable areas for static geological analysis;(2)studying well recompletion potential and the condition of non-producing wells;(3)conducting interwell analyses with seismic and sedimentary data;(4)identifying potential sites constrained by seismic and geological studies,as well as initial oilfield production;(5)providing suggestions in a new well development plan.

超短半径多分支井技术在南海Z油田典型应用

在开展超短半径多分支井技术实施的可行性论证的基础上,通过精细方案设计及实施超短半径多分支井技术。该技术首次使用中国海油自研工具,在Z油田S井首次取得成功,创新解决合采层间压制问题,单井增产倍比达2.7倍且较稳定,为海上类似油田的开发积累了宝贵的增产技术经验。

Quantitative prediction of oil saturation of unconsolidated sandstone reservoir based on time-lapse seismic “relative difference method”: Taking Zeta oil field in West Africa as an example

In view of the disadvantage that the absolute difference of time-lapse seismic(the difference between monitoring data and base data) is not only related to the change of oil saturation, but also closely related to the thickness of reservoir, a time-lapse seismic "relative difference method"(the ratio of monitoring data to base data) not affected by the thickness of reservoir but only related to the change of fluid saturation, is proposed through seismic forward modeling after fluid displacement simulation. Given the same change of fluid saturation, the absolute difference of time-lapse seismic conforms to the law of "tuning effect" and seismic reflection of "thin bed", and the remaining oil prediction method based on absolute difference of time-lapse seismic is only applicable to the reservoirs with uniform thickness smaller than the tuning thickness or with thickness greater than the tuning thickness. The relative difference of time-lapse seismic is not affected by reservoir thickness, but only related to the change of fluid saturation. It is applicable to all the deep-sea unconsolidated sandstone reservoirs which can exclude the effect of pressure, temperature, pore type and porosity on seismic. Therefore, the relation between the relative difference of time-lapse seismic and the change of fluid saturation, which is obtained from seismic forward modeling after Gassmann fluid displacement simulation, can be used to quantitatively predict the change of reservoir water saturation and then the distribution of the remaining oil. The application of this method in deep sea Zeta oil field in west Africa shows that it is reasonable and effective.

高含水期油藏剩余油聚集度表征方法

剩余油聚集度是评价高含水期油藏开发效果及开发潜力的重要指标。通过剩余油储量丰度,确定油藏优势储量区;利用单块面积、分布密度和形状指数,通过熵权法确定各指标的权重,最终形成剩余油聚集度的表征。研究表明,对于一个稳定开发的油藏,开发过程中剩余油的离散与聚集可分为一次离散阶段、迅速分离阶段、波动聚集与离散阶段和二次离散阶段。利用表征指标对大港油田港东开发区二区七断块Nm3-4-1小层进行评价,该小层剩余油聚集度随着开发的进行稳步下降,现阶段由于注采结构和井网调整,剩余油聚集度开始上升。

不同注采方式下层间非均质储层微观剩余油动用状况

特高含水期强非均质性油藏注水开发一直是油藏工程中重点研究的问题之一,而研究该问题的核心是明晰剩余油的分布、类型及启动方式。为了明确不同注采方式条件下微观剩余油的赋存状态,利用微流控驱替实验,针对强非均质性储层,对不同注采方式下微观剩余油进行动用状况定量化研究。储层中微观剩余油的主要分布类型以簇状流为主,柱状流和多孔流次之,滴状流基本没有赋存;基于微观剩余油定量分析,明确了不同注采方式对特高含水期强非均质性储层剩余油采出程度的提高效果,其中轮注轮采对该体系提升最大,分注轮采次之,轮注合采最差;并进一步研究了不同类型的注采方式在微观驱替时主要作用的剩余油类型及其作用机理。研究成果为该类型储层注水开发过程中注采方式的选择提供了理论依据。

缝洞型油藏剩余油类型及其动用方式研究

塔河油田缝洞型油藏已进入中高含水开发阶段,受构造断裂和多期岩溶缝洞控制,储层非均质性强、井洞关系差异大,导致对剩余油的分布模式认识不清。针对上述问题,基于地震静态资料、钻完井资料和生产动态资料,开展了储层定量化研究,结果显示剩余油分布受重力分异作用、渗流阻力屏蔽和井间压差差异影响,基于岩溶地质特征、缝洞关系综合分析,提出了利于矿场挖潜的剩余油分布模式,制定了以注气、堵水、酸压为主的挖潜思路。

渤海湾盆地沾化凹陷新生界断层精细表征及地质意义

断层的精细表征对高含水期复杂断块油田剩余油挖潜具有重要意义。利用井-震标志层对比、地震同相轴变异识别与断层叠合模型验证等方法,对渤海湾盆地沾化凹陷新生界复杂断块油田开展了断层精细表征。研究结果表明:(1)沾化凹陷复杂断块油藏断层两侧岩层的对接关系复杂,断层组合样式多样,继承性小微断层发育,通过断点定位、断面解释、断层平面组合与空间叠合建模等,实现断层特别是小微断层的精准识别、定位与表征。(2)研究区小微断层发育的重要特征为地震剖面中同相轴的扭曲、分叉、合并等变异现象,同相轴微扭动、微扭曲、微错断是小微断层断点识别与定位的重要依据。(3)断层精细表征使研究区断层的断边“盲区”和“模糊区”变为剩余油富集的潜力区,断层两侧外扩可新增地质储量。断层精细表征可优化完善井网布局、增加挖潜开发实效,还可为进一步明确剩余油富集分布规律、调整开发井网和实施精准开发等提供科学依据。

中高含水率期油藏薄互层状剩余油动用技术

受储层非均质性影响,注水开发油藏经过长期注水冲刷形成水流优势通道,导致油井过早水淹,但仍有大量剩余油呈薄互层状赋存。中高含水率期提高采收率的核心就是如何动用这部分剩余油,本文在立足单砂体剩余油精细刻画基础上,根据单砂体剩余油控制因素及分布特征,通过注采结构优化调整、微球调驱及气驱提高采收率技术,有效改善了驱替效果,增加了可采储量,预测提高采收率3.00%。

基于优势低频带地震数据的属性融合断层识别方法

断层是剩余油的重要富存区,地震精细刻画断层对于高效挖潜剩余油具有重要意义.针对传统断层识别方法精度低、不确定性大等问题,提出一种基于“优势”频率数据体的相干-倾角-方位角三属性融合断层识别方法.该方法首先通过匹配追踪频谱分解对地震数据进行分频处理,获取有利于断层刻画的“优势频率”;再以地震“子体”为运算对象,在免受噪声影响的情况下,从优势频率单频数据体中获取相干、倾角和方位角属性;基于HIS(Hue-Intensity-Saturation)变换融合不同属性后,最终实现断层高精度识别.理论模型测试表明,优势频率可以突出断距3 m以上断层反射特征,有效避免岩性边界响应特征干扰断层识别,降低了识别结果的不确定性.该技术应用于L油田,首次发现其优势频率为低频端25 Hz,实现了L油田断裂体系重建,指导该油田发现两个断层剩余油富集区、部署两口沿断面大位移定向井,取得了显著的开发效果.

孤东油田四区馆陶组曲流河储层构型表征及对剩余油的控制

为了进行孤东油田开发中后期有利储集体的预测和开发,以孤东油田四区主力小层Ng3^(1)为例,通过地震沉积学、地震资料和测井资料在储层中划分不同次级单元,识别构型单元类型及其组合体,对曲流河储层构型进行细致解剖。在正演的指导下建立复杂曲流河带及其内部单元的特征模型;应用模型对研究区进行地震构型解剖,结合动态资料和测井曲线进行验证,地层的吸水情况反映了砂体连通情况,解释结果反映了废弃泥岩的存在,验证结果与构型解释结果吻合,证明了河流相地震构型解释方法的可靠性。研究成果为下一步高效开发剩余油起到有效的指导作用,并对类似河流相储层构型研究有较好的借鉴意义。

砾岩油藏水驱剩余油分布特征及技术对策

针对准噶尔盆地百口泉油田百21井区砾岩油藏水驱控制程度低、井网极不完善的问题,以油藏工程方法与储层地质学为指导,应用动、静态资料开展储层构型精细研究,分析油藏构造、沉积、储层非均质特征以及油水分布规律,完善注采井网。研究结果表明:文中提出的“层系异策、分区调控、单井分类、方式优化”的注水优化调整思路对百口泉油田十分有效。通过开展百21井区三叠系剩余油分布特征以及油藏注采井网研究,应用流线模拟技术综合分析识别出56个优势渗流通道,提交动用石油地质储量975.00×10^(4)t,累计增油16.60×10^(4)t。该研究对同类油藏的注采井网完善及高效挖潜具有借鉴作用。

某油田低渗透油藏水平井加密及跟踪调整提产

某油田储集层物性差,纵向上层数少,厚度小,小断层发育且展布方向复杂,直井开发效果差,现有井网难以建立有效驱替体系。在老水平井和2014年先导试验加密水平井开发效果均较好的基础上,在注水受效差的直井区及断层附近未动用区,开展加密水平井及跟踪调整技术研究。通过井震和动静态结合分析,优选储集层发育稳定、水淹风险小且剩余油富集的加密区;通过水平井方位和水平段长度优化,压裂加密布缝及优化缝长,提高水平井产能;通过早期间注及隔强临弱的注水跟踪调整,优化注采方式。按照以上方法,该油田2019年加密水平井19口,砂岩钻遇率达到83.0%,初期单井日产油量为7.4 t,综合含水率为28.8%,建立了有效驱替体系,油田的采油速度由0.8%提高到1.5%,提高了油田的开发效果。

Heavy Oil Reservoir Seismic Characteristics during Thermal Production:A Case Study

Most production methods of heavy oil involve thermal production.However,it is challenging to delineate the thermal-affected zone due to complex reservoir conditions.With steam injected,the heavy oil viscosity drops;the reservoir density and velocity decrease accordingly,causing changes to seismic impedance.Moreover,the oil-and-water viscosity ratio and permeability show the difference with changing temperature,indicating that the reservoir’s ability to transmit seismic waves would also be temperature-dependent.Therefore,the seismic responses and attenuation characteristics of the steam chamber can be helpful to monitor the steam-affected zone.We introduce an improved viscoelastic model to approximate the heavy oil reservoir during thermal production,and use the frequency-space domain finite difference algorithm to simulate the seismic wave-fields.Numerical results demonstrate that this model is applicable to a wide temperature range,and can effectively reveal the seismic characteristics of the steam chamber.Through analyzing the propagation differences of seismic waves under different temperatures,it is concluded that the attenuation coefficient,root-meansquare amplitude difference and amplitude ratio of PP-wave and PS-wave under different conditions can reveal the temperature variation in the steam chamber,with which it is possible to detect the steam chamber spatial distribution.

永宁油田特低渗水驱油藏提高采收率技术对策研究

基于永宁油田部分井区采出程度低、井区窜流严重等情况,优选永宁油田张柴窑子井区作为先导试验区,通过油藏模拟剩余油分布规律分析,明确其平面与纵向上的潜力方向。同时开展区域内标准井的空气泡沫驱试验,分析对比CO_(2)驱采油技术、空气泡沫驱采油技术通过挖潜剩余油来提高采收率的技术方法。结果表明:张柴窑子井区由于原始地层压力小以及CO_(2)驱成本相对较高等原因,不适宜采用CO_(2)混相驱采油技术;而张柴窑子井区采用空气泡沫液驱替,驱油效率平均为14.89%,与水驱相比驱油效率提高5.30~29.30个百分点,最终采收率平均可提高6.80个百分点,建议对永宁油田范围内与张柴窑子井区油藏特征相近的区块优先推广空气泡沫驱采油技术来提高采收率。