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1.
高分辨率层序地层学对河流相储层薄夹层的识别及其应用 总被引:2,自引:0,他引:2
在目前大多数主力油田已进入高含水期的形势下,分析河道砂内部建筑结构,了解剩余油分布规律,保持油田高产稳产已迫在眉睫。通过高分辨率层序地层学理论作为研究的平台,研究储层内部薄夹层的识别,因为储层内部的物性如孔隙度、渗透率、含油饱和度大小以及剩余油的分布与这些泥质薄夹层的空间分布有着很大的关系。利用高分辨率层序地层学理论,探讨薄夹层的成因及其识别,这对精细表征油藏地质特征,研究剩余油形成和分布,进而采取有效的工程措施都具有重要的地质意义。 相似文献
2.
开展海上复杂断块油田储层流动单元研究对刻画储层连通程度、剩余油的分布情况有着十分重要的实际意义。以北部湾A油田A1/A5断块为例,首先对复合砂体内单砂体的识别来建立流动单元研究的精细地质格架,然后结合断层封闭性、隔夹层分布、砂体接触关系所形成的渗流屏障进行流动单元划分。利用主成分分析和相关性分析的方法进行参数优选,确定孔隙度、泥质含量、渗流系数作为研究区流动单元分类的主要参数,并通过神经网络聚类分析将流动单元分为3类。在单井、剖面、平面流动单元展布研究的基础上,运用截断高斯模拟方法建立流动单元三维地质模型。结果表明:Ⅰ类流动单元具有最好的储渗能力,所钻油井累计产量比较高,但分布范围局限,成土豆状分布于水下分流河道中心部分;Ⅱ类分布范围最广,储渗能力较好,分布在水下分流河道微相中,剩余油分布较多,通过调整挖潜可以开发其生产潜力;Ⅲ类大多成条带状分布,主要位于水下溢岸砂沉积部位,储渗能力最差,产量很低,其开发潜力也比较差。 相似文献
3.
通过对卫城油田卫22块铸体薄片、扫描电镜以及孔隙度渗透率资料的分析,对研究区储层微观非均质性,储层层内、层间、平面非均质性做了详细的研究。认为研究区储层砂岩以细砂岩粉砂岩为主,孔喉结构为中孔细喉;储层非均质性主要受控于沉积作用和成岩作用,层内渗透率大部分为反韵律序列,各小层内部渗透率的差异性很大,表现为严重非均质型;纵向上各小层砂岩密度相差很大,但各井垂向上渗透率差异不大,以非均质型居多;平面上储层非均质性主要受沉积相带平面分布的影响,水下分流河道和河口砂坝沉积非均质性较弱,前缘沙席表现为较强的平面非均质性。 相似文献
4.
《海洋地质前沿》2016,(11)
渤海新近纪浅水三角洲沉积储层纵横向变化快、隔夹层发育,在少井条件下如何开展储层展布研究及水平井部署是海上油田开发早期亟待解决的问题。以渤中A油田浅水三角洲相X沉积体为例,据岩心、测井、地震等资料分析储层沉积特征,在高分辨率层序地层学指导下细分成因单元,分析单砂体对应测井、地震波形特征并刻画其展布。研究区储层类型以叠置分流河道、河口坝及河道间沉积为主,结合高分辨率地层学将目的层划分为1个短期旋回、4个超短期旋回,反映了一套基准面逐渐下降至暴露环境,后基准面上升至再次湖泛的过程。根据储层沉积特征、地震响应特征和复合砂体精细构型研究,识别出复合砂体的3种接触关系,同时对X沉积体进行了单河道识别和隔夹层分布规律研究,将X沉积体细分为3期单元砂体,并总结出3种储层结构类型,结合已有水平井的生产动态特征,提出X沉积体水平井部署的4种开发模式,有效指导了开发井实施。 相似文献
5.
为摸清研究区储层长期注水开发后物性定量变化规律,以辽东湾坳陷Z油田东二下段三角洲前缘储层密闭取心为研究对象,综合利用岩矿分析、扫描电镜、X衍射、扫描伽马、常规物性、测井水淹解释等资料,从储层物性影响因素入手,系统研究了不同成因类型、不同渗透率储层水驱前后渗透率的变化规律,量化了不同水淹程度储层渗透率的变化幅度。研究结果表明:研究区储层物性的主要影响因素是黏土矿物和孔喉结构,二者与储层原始物性的大小息息相关,且在注水开发后两因素均发生了明显变化并导致渗透率的改变;黏土矿物含量与储层原始渗透率呈负相关的幂函数关系,黏土矿物含量越大,储层原始渗透率越低;孔喉大小与储层原始渗透率呈正相关关系,孔喉半径平均值、孔喉半径中值越大,储层原始渗透率越高;随着注水冲刷程度的加强,黏土矿物含量逐渐降低,而孔喉半径分布趋向于均匀化,且有增大趋势。黏土矿物和孔喉结构两者的变化导致储层渗透率随着水淹程度的加强整体上呈现增大的趋势,渗透率分布主值区向右移动,高值渗透率比例增加,低值渗透率比例减小。此外,笔者归纳总结了砂体成因类型相同、岩心扫描伽马值相近、渗透率级别相同的储层岩样在低、中、强水淹程度相对于未水淹岩心的渗透率变化量,详细分析了渗透率不同变化的原因及其对剩余油分布的影响。该研究为油田中后期剩余油精细描述提供了新思路,对油田高含水期深入挖潜、高效开发具有指导作用。 相似文献
6.
真12断块E2s1^6是真武油田主力开发层系,以岩心、测井、生产动态资料为基础,通过流动单元、隔夹层、渗透率韵律类型等,研究与渗透率变化有关的储层非均质性,建立储层物性参数模型,通过油藏数模模拟两类剖面和建立不同含水期集层渗透率模型,研究油藏纵向油水运动规律,研究剩余油分布,为E2s1^6油藏最终提高采收率、改善开发效果提供依据。 相似文献
7.
低渗油藏是油田勘探开发过程中难度最大的油藏类型之一,黑46断块为低孔特低渗碎屑岩储层,储层物性差、采出程度低、综合含水高、非均质性强,因此开发难度较大。针对黑46地区复杂油藏特征,以岩心观察、室内分析实验结果和测井解释资料为基础,对青一段储层层内、层间和平面非均质性进行研究,并对不同沉积相带的非均质性进行分析,明确其对研究区剩余油分布规律的影响。黑46断块青一段严重非均质性储层因注入水推进不均匀,易导致剩余油富集;单一反韵律砂体油层中上部岩性粒度粗,渗透率高,吸水指数大,动用程度高;通过数值模拟结果验证,注入水沿高渗透率突进,致使渗透率较差的区域成为剩余油分布集中地带。该研究结果与油田试油结果对比吻合较好,对下一步油气勘探与后期注水开发具有重要的指导意义。 相似文献
8.
为解决渤海P油田注水开发过程中逐渐暴露出的注水井吸水不均衡、注入水单层突进、储量动用不均衡等问题,以搞清剩余油分布及指导油田井网优化。通过对压力变化、水淹状况、生产干扰情况及储层沉积、储层展布等方面的分析,对河流相多层砂岩油藏储层连通性及控制因素进行了研究。认为不同沉积类型条件下,馆陶组辨状河沉积储层连通性优于明化镇组曲流河沉积,相同沉积类型中,沉积规模广、砂体呈垂向叠加,且夹层不发育的储层连通性好。可见,研究区储层连通性主要受沉积类型、沉积规模、砂体叠加模式及夹层展布的影响。 相似文献
9.
《海洋地质前沿》2021,37(3)
基于沉积微相研究和测井精细解释数据统计分析,开展了涠西南凹陷W区古近系始新统流沙港组储层非均质性研究。W区储层为流一段和流三段,沉积微相研究表明,流沙港组主要为正常三角洲相和扇三角洲相沉积。储层夹层岩性主要为泥岩、粉砂质泥岩,主要成因为分流水道间、水下分流河道与砂坝、砂坝与砂坝、辫流坝与辫状水道、辫状水道间的泥质沉积物。非均质性研究以沉积微相为基础进行,通过比较不同沉积微相的非均质性差别,分析储层的空间物性变化。非均质性研究表明,WA油田流一段夹层厚度5 m的占51.4%,单层夹层层数5个的占27.4%,变异系数平均值1.2,整体上非均质性很强;WB油田流三段夹层分布均匀,东南部平面非均质性弱,西北部平面非均质强;WC和WD油田流三段整体上夹层多,但平面非均质性弱。依据非均质研究成果,对密井网的WA油田主力层进行了剩余油分布预测,并部署了2口调整井挖潜,实施后累增油4.2×10~4 t,采收率提高了2.3%。表明储层夹层分布和平面非均质性研究可以为油田剩余油挖潜提供依据,对油田高效开发具有重要意义。 相似文献
10.
《海洋地质与第四纪地质》2016,(1)
低渗油藏是油田勘探开发过程中难度最大的油藏类型之一,黑46断块为低孔特低渗碎屑岩储层,储层物性差、采出程度低、综合含水高、非均质性强,因此开发难度较大。针对黑46地区复杂油藏特征,以岩心观察、室内分析实验结果和测井解释资料为基础,对青一段储层层内、层间和平面非均质性进行研究,并对不同沉积相带的非均质性进行分析,明确其对研究区剩余油分布规律的影响。黑46断块青一段严重非均质性储层因注入水推进不均匀,易导致剩余油富集;单一反韵律砂体油层中上部岩性粒度粗,渗透率高,吸水指数大,动用程度高;通过数值模拟结果验证,注入水沿高渗透率突进,致使渗透率较差的区域成为剩余油分布集中地带。该研究结果与油田试油结果对比吻合较好,对下一步油气勘探与后期注水开发具有重要的指导意义。 相似文献
11.
“薄散弱”油藏由于其油层薄、砂体小、分布零散、天然能量弱,采用定向井难以经济有效开发;采用水平井开发虽可提高单井初期产量,但由于地层能量不足,产量递减快,无法从根本上解决采收率低的问题;注水开发虽能解决地层能量不足问题,但海上注水要增加设备、平台空间及平台重量,相应地增加开发成本,加上其储量规模小,经济效益难以保证.以X油田H4油藏为例,在储层精细描述的基础上,提出并实践了多底多分支水平井技术与地层自流注水技术,实现了“薄散弱”油藏的经济有效开发,并取得了较好的开发效果.其实践成果对类似难动用储量的经济有效开发具有借鉴和参考意义. 相似文献
12.
渤海湾盆地南堡凹陷断裂控藏特征研究 总被引:1,自引:0,他引:1
南堡凹陷为渤海湾盆地的一个新生代富生烃凹陷,内部断层十分发育,大量的油气藏都围绕断裂分布。根据断裂平面及剖面组合特征,断裂平面组合样式可分为4种:平行状、交织状、梳状和帚状;剖面组合分为3种:复“y”形组合、花状组合及阶梯式组合。根据断裂、砂体及油气藏的分布特征,发现二级和三级生长断层凹面储集厚度较大、且砂体孔渗性较好,是油气运移的主要方向。反向旋转断层组合的断层下盘和同向旋转断层组合的断层上盘是油气聚集的有利部位。但由于断层带的分带性,上诱导裂缝带相对下诱导裂缝带渗透性好。上诱导裂缝带利于油气运移,下诱导裂缝带利于封堵油气,油气的最有利聚集部位为反向旋转断层组合的下盘。 相似文献
13.
东营凹陷2001年之前探明的低渗透油藏主要分布在洼陷带、中央背斜带及北部陡坡带,以沙三段深水浊积扇及沙四段滨浅湖相砂岩滩坝、扇三角洲前缘等沉积体系为主。油藏类型主要是岩性油藏,其次为构造—岩性复合型油藏。低渗透油藏以中深层、常压-超高压、低产、中产为特征,多为特小型、小型油藏,储量丰度为低丰度~特低丰度。低渗透油藏的探井试油过程中,经历了从酸化逐步到压裂的技术发展过程。统计探井的试油效果表明,沙四段碳酸盐含量较高的砂岩低渗透油藏,酸化效果较好;黏土含量较高的沙三段低渗透油藏,压裂效果较好。 相似文献
14.
东海平湖油气田中高渗凝析气藏开发效果分析 总被引:1,自引:0,他引:1
东海平湖油气田放鹤亭始新统平湖组气藏,属中高渗砂岩中低凝析油含量凝析气藏,1999年3月投入生产,采用衰竭式开采,至今已有8个年头,目前仍处于开发稳产阶段,日生产天然气量在140×10^4m^3左右。通过对平湖油气田凝析气藏开发生产状况跟踪研究发现,其采气速度高、主力气藏气井无水采气期普遍较长、气油比随着压力下降而上升、凝析油含量随着压力下降而下降、天然气采收率将优于开发方案设计值,同时也发现,防止气井出水、出砂是中高渗凝析气藏开发中应予以高度重视的问题。平湖油气田凝析气藏开发,在技术上和经济上都取得了较好的效果,可以借鉴于类似凝析气田的开发实践中。 相似文献
15.
Compared to conventional reservoirs, pore structure and diagenetic alterations of unconventional tight sand oil reservoirs are highly heterogeneous. The Upper Triassic Yanchang Formation is a major tight-oil-bearing formation in the Ordos Basin, providing an opportunity to study the factors that control reservoir heterogeneity and the heterogeneity of oil accumulation in tight oil sandstones.The Chang 8 tight oil sandstone in the study area is comprised of fine-to medium-grained, moderately to well-sorted lithic arkose and feldspathic litharenite. The reservoir quality is extremely heterogeneous due to large heterogeneities in the depositional facies, pore structures and diagenetic alterations. Small throat size is believed to be responsible for the ultra-low permeability in tight oil reservoirs. Most reservoirs with good reservoir quality, larger pore-throat size, lower pore-throat radius ratio and well pore connectivity were deposited in high-energy environments, such as distributary channels and mouth bars. For a given depositional facies, reservoir quality varies with the bedding structures. Massive- or parallel-bedded sandstones are more favorable for the development of porosity and permeability sweet zones for oil charging and accumulation than cross-bedded sandstones.Authigenic chlorite rim cementation and dissolution of unstable detrital grains are two major diagenetic processes that preserve porosity and permeability sweet zones in oil-bearing intervals. Nevertheless, chlorite rims cannot effectively preserve porosity-permeability when the chlorite content is greater than a threshold value of 7%, and compaction played a minor role in porosity destruction in the situation. Intensive cementation of pore-lining chlorites significantly reduces reservoir permeability by obstructing the pore-throats and reducing their connectivity. Stratigraphically, sandstones within 1 m from adjacent sandstone-mudstone contacts are usually tightly cemented (carbonate cement > 10%) with low porosity and permeability (lower than 10% and 0.1 mD, respectively). The carbonate cement most likely originates from external sources, probably derived from the surrounding mudstone. Most late carbonate cements filled the previously dissolved intra-feldspar pores and the residual intergranular pores, and finally formed the tight reservoirs.The petrophysical properties significantly control the fluid flow capability and the oil charging/accumulation capability of the Chang 8 tight sandstones. Oil layers usually have oil saturation greater than 40%. A pore-throat radius of less than 0.4 μm is not effective for producible oil to flow, and the cut off of porosity and permeability for the net pay are 7% and 0.1 mD, respectively. 相似文献
16.
孤岛油田属稠油疏松砂岩油藏,生产过程中油井出砂严重,现有的涂敷砂人工井壁防砂注蒸汽后强度较低,造成防砂成功率低,注汽后高强度采液生产周期较短。为此,通过室内试验,优选出耐高温树脂、高强度骨架颗粒、偶联剂、固化剂,进行室内配方优化试验,评价固结体耐高温性能,测定其渗透率,研制出一种适用于疏松砂岩油藏注蒸汽热采井的HD-1注汽井新型防砂材料。在孤岛油田稠油注蒸汽热采区共试验72口井,成功率为91.0%,截止目前,累计产油为121 572 t,单井平均有效期为233 d。现场应用表明:HD-1注汽井新型防砂材料耐高温、强度高,防砂成功率高,有效期长,能够有效改善注蒸汽热采井的防砂效果。 相似文献
17.
Many gas seepages, temperature, pressure, salinity, anoxic environment and high source gas potential of the Black Sea indicates that the Black Sea might have huge potentials for biogenic and thermogenic gas hydrates. However, the last important parameter to consider gas hydrate as an energy source is the type of sediments. Coarse marine sands are considered as good hydrate reservoirs because of high porosity and high permeability. Only very limited data is available related to the types of lithology of the Black Sea sediments. Hence, in this study, the literature data (especially the drilling and coring data of DSDP Leg 42B program) about gas seepages, temperature gradient, pressure gradient, salinity, anoxic environment and high source gas potential, and the types of the sediments in the Black Sea were investigated and analyzed. Although gas seepages, temperature gradient, pressure gradient, salinity, anoxic environment and high source gas potential of the Black Sea are appropriate for producible gas hydrate reservoirs, the sediments of the Black Sea appear to be generally fine grained with high clay content. Sandy-silt and silty sand layers in turbidites of the Black Sea might be potential producible hydrate reservoirs but these sediments are fine. As well as turbidites, separate thin sand layers might be potential gas hydrate reservoirs as an energy source in the Black Sea. 相似文献
18.
Reservoir characterization based on geostatistics method requires well constraints (e.g. seismic data with high quality) to predict inter-well reservoir quality that is conformed to geological laws. Nevertheless, the resolution of seismic data in multiple basins or reservoirs is not high enough to recognize the distribution of different types of sand bodies. In this paper, we propose a new method to improve the precision of reservoir characterization: reservoir modeling with the constrains of sedimentary process model and sedimentary microfacies. We employed stratigraphic forward modeling, a process-based method, to constrain the reservoir modeling in one oil-bearing interval of the third member of Eocene Shahejie Formation in J-Oilfield of Liaoxi Sag, Bohai Bay Basin.We divide reservoir modeling into two orders using different types of constrains. In the first order, we use the simulated shale model from stratigraphic forward model that is corrected by wells data as a 3D trend volume to constrain the reservoir sand-shale modeling. In the second order, different types of sedimentary microfacies in the sandy part of the model are further recognized and simulated within the constrains of sedimentary microfacies maps. Consequently, the porosity, permeability and oil saturation are modeled under the control of precise sedimentary microfacies model. The high-resolution reservoir model shows that the porosity, permeability and oil saturation of distributary channel is generally above 20%, 10md and 50%, respectively, which are much higher than that of other types of sedimentary microfacies. It can be concluded that comparing to other types of sedimentary facies, distributary channel has better physical properties and more oil accumulation in the fan-delta front and therefore is the most favorable zones for petroleum development in the research area. 相似文献