3D Physical Simulation of Water Flooding Characteristics of Buried Hill Reservoir with Different Fracture Systems

In order to understand the water-flooding characteristics of different fracture systems in metamorphic rock buried hill reservoirs and the mechanism of improving water-flooding development effect, a three-dimensional physical model of fractured reservoirs is established according to the similarity criterion based on the prototype of metamorphic buried hill reservoirs in JZ Oilfield in Bohai Bay Basin. Combined with the fractured reservoir characteristics of JZ Oilfield, the water displacement characteristics of the top-bottom staggered injection-production well pattern in different fracture network mode and different fracture development degree of buried hill reservoir are studied. The experimental results show that: 1) the more serious the fracture system irregularity is, the shorter the water-free oil production period is and the lower the water-free oil recovery is. After water breakthrough of production wells, the water cut rises faster, and the effect of water flooding development is worse;2) under the condition of non-uniform fracture development, the development effect of the bottom fracture undeveloped is better than that of the middle fracture undeveloped. Water injection wells are deployed in areas with relatively few fractures, while oil wells are deployed in fractured areas with higher oil recovery and better development effect.

Research and Application of Water Flooding Timing and Method for Blocky Bottom Water Fractured Buried Hill Reservoir

Oilfield A is a fractured buried hill reservoir in Bohai bay of China. In order to solve the difficult problem of water flooding timing and method in oilfield. Considering the characteristics of the buried hill fractures with stress sensitivity and strong heterogeneity, the ECLIPSE software was used in the research, and a three-dimensional injection-production numerical model for horizontal wells in buried hill reservoirs is established. According to the main research factors in water flooding, a series of water flooding schemes are designed, and the optimization of water flooding timing, oil recovery rate and water flooding mode in buried hill reservoirs were carried out. The results show that the optimum pressure level of fractured reservoir is about 70% of the original reservoir pressure. The optimal water flooding method is the conventional water flooding in the initial stage, when the water cut reaches 80%, it is converted into periodic water flooding. The oil recovery is the highest when the water injection period is 4 months. Field tests show that conventional water flooding is carried out in the initial stage of the oilfield A when the pressure is reduced to 70% of the original. Periodic water flooding is carried out when water cut is 80%. Good development results had been achieved in the 10 years since oilfield A was put into production. The average productivity of single well reached 300 m3/d in the initial stage, at present, the water cut is 60%, and the recovery degree is 18.5%, which is better than that of similar oilfields. This technology improves the water flooding effect of blocky bottom water fractured dual media reservoirs in metamorphic buried hills, and provides a reference for the development of similar reservoirs.

The fracture network model of Shen 229 block buried hill:A case study from Liaohe Basin,China

High oil production from the Proterozoic formation of Shen 229 block in Damingtun Depression, Liaohe Basin, China, indicates the presence of natural fractured reservoir whose production potential is dominated by the structural fracture. A con- sistent structural model and good knowledge of the fracture systems are therefore of key importance in reducing risk in the de- velopment strategies. So data from cores and image logs have been collected to account for the basic characteristics of fracture, and then the analyzed results were integrated with the structural model in order to restrict the fracture network development during the structural evolvement. The structural evolution of the Proterozoic reservoir with time forms the basis for understanding the de- velopment of the 3D fracture system. Seismic interpretation and formation correlation were used to build a 3D geological model. The fault blocks that compose the Proterozoic formation reservoir were subsequently restored to their pre-deformation. From here, the structures were kinematically modeled to simulate the structural evolution of the reservoirs. At each time step, the dilatational and cumulative strain was calculated throughout the modelling history. The total strain which records the total spatial variation in the reservoir due to its structural history, together with core data, well data and the lithology distribution, was used to simulate geologically realistic discrete fracture networks. The benefit of this technique over traditional curvature analysis is that the structural evolution is taken into account, a factor that mostly dominates fracture formation.

Ultra-deep carbonate basement reservoirs formed by polyphase fracture-related karstification in the Offshore Bohai Bay Basin, China

The Palaeozoic carbonate basement of the Offshore Bohai Bay Basin (OBBB) presents considerable potential for hydrocarbon exploration. However, the multistage tectonism and complex superimposed palaeo-karstification in the area are unclear, which leads to a lack of understanding on the formation mechanism and distribution of the deep carbonate basement reservoirs. In this study, the occurrence of a fracture-vug network and its fillings in carbonate reservoirs were investigated based on borehole cores, thin sections, and image logs from the southwestern slope of the OBBB's Bozhong Sag. Then the diagenetic fluid properties of the carbonate matrix and fillings were analysed via the data of carbon, oxygen, and strontium isotopes, and major, rare elements from coring intervals. The results revealed that fracture-related karst reservoirs have lithologic selectivity inclined toward dolomite strata. The intersecting relationships, widths, and strikes of the fractures and the regional tectonic background indicate three structural fracture families: NW-, NNE-, and NNW- trending, related to the Indosinian, middle Yanshanian, and late Yanshanian orogeny, respectively. The Indosinian NW- and end-Mesozoic NNE-trending fractures produced by compressional tectonic stress mainly contributed to the formation of the basement reservoirs. The geochemistry of the calcite veins filling these fractures suggests two main types of diagenetic fluids. The fluid of autogenic recharge related to the earlier fills is karstification diffuse flow dominated by internal runoff from rainfall in the highland setting of the Indosinian thrusting orogenic belt. The other fluid of allogenic recharge related to the later fills is the main lateral freshwater flow dominated by external runoff from the catchment in the setting of the horst-lowland within the rifting basin, induced by the Yanshanian destruction of the North China Craton. Finally, the relationship between the three fracture families and two kinds of related fluids is revealed. This allows us to propose a model to understand the polyphase-superimposed fracture-related karst reservoir complexes within the deep carbonate basement of tilting fault blocks that neighbour the Bozhong hydrocarbon kitchen and predict the formation of potential plays with high accuracy.

珠江口盆地潜山储层地质力学及压裂参数优化研究

珠江口盆地珠一坳陷惠州27-1井区作为潜山油气储层,压裂层段厚度大、层数多、非均质性强、压裂改造难度大,对于人工裂缝的在潜山储层中的拓展延伸规律认识困难。针对此问题,首先建立动态参数测井解释模型,并与静态岩石力学数据协同校正,建立一维岩石力学剖面;结合深部成岩理论,建立三维地质力学模型,真实模拟研究区块成岩环境;最后基于三维地质力学模型,研究排量、液量、砂比、前置液占比、射孔层位厚度等参数对裂缝纵向和平面延伸规律的影响,优化压裂设计。结果表明:惠州27-1区块,杨氏模量平均值为45.47 GPa,最大水平主应力平均值为100.91 MPa,最小水平主应力平均值为80.98 MPa,泊松比平均值为0.30。排量6~7 m^(3)/min、液量600~700 m^(3)、砂比10%~15%、前置液比例50%~60%、射孔厚度8~11 m为最优施工参数,为现场施工提供指导意见。

海上低渗潜山储层缝网压裂可行性评价方法

海上低渗潜山储层开发难度大、开发经济界限高,开发效果受压裂改造体积影响很大。采用地质工程一体化方法,在地质模型和力学模型的基础上,研究认为M潜山储层可以形成复杂人工缝网。为进一步提高裂缝复杂程度,建立了以储隔层应力差、隔层厚度、逼近角、水平应力差异系数为参数的缝网评价方法,并给出了最优值,认为储隔层应力差小于4MPa或隔层厚度小于7m时,可以实现人工裂缝穿层,实现裂缝复杂化。该研究对论证海上低渗潜山储层压裂能否形成复杂缝网,提高单井初产和累产具有很好的指导作用。

渤中19-6潜山裂缝储层高承压可解堵防漏堵漏体系优化与应用

渤中19-6等区块潜山储层裂缝发育,导致钻井过程中漏失频发。潜山层段顶部存在风化壳,裂缝极其发育,且多为微小—小裂缝,严重影响了钻井时效。通过分析渤中19-6等区块钻井液漏失密度、裂缝宽度和漏失工况,揭示了潜山裂缝漏失特征和机理;通过形貌分析及酸溶率、抗温性和承压能力测试,优选出GYD合金作为架桥材料、水镁石纤维作为铺网捕获的纤维材料、MDF粉末和PF-EZCARB粉末作为填充粉末,构建了潜山裂缝性高承压可解堵堵漏体系。室内测试评价结果表明,所优选的堵漏材料复配协同,对开度1.0 mm×0.5 mm楔形长裂缝封堵承压达10 MPa,强化了防漏堵漏体系的网络结构,提高了承压堵漏性能,酸溶解堵率为72.5%,实现了“堵而不死,易于解堵”,最大限度地满足了潜山储层的堵漏要求。本文构建的潜山裂缝性高承压可解堵堵漏体系已在渤中19-6区块深层探井中取得成功应用,可为渤海潜山储层安全高效钻井提供技术支持。

潜山花岗岩裂缝性储层阵列声波测井数值模拟研究

南海琼东南盆地潜山储层储集空间类型复杂多样,裂缝多发育,导致储层具有较强的非均质性,该地区多见花岗岩沉积,因此有效评价花岗岩储层中裂缝的发育情况至关重要。利用COMSOL Multiphysics有限元模拟软件,采用有限元方法,对使用阵列声波测井探测不同宽度、不同倾角及不同长度的花岗岩储层进行模拟,总结出不同发育状态裂缝的阵列声波测井响应特征。研究发现:裂缝性地层横波受裂缝宽度变化影响不明显,横波衰减程度与裂缝倾角变化呈反比,与裂缝长度变化呈正比;斯通利波对裂缝宽度、裂缝倾角、裂缝长度等变化均有明显响应,斯通利波衰减程度与裂缝宽度及裂缝倾角均呈正比;在裂缝长度小于0.1 m时,斯通利波衰减程度与裂缝长度呈正比,裂缝长度大于0.1 m之后,斯通利波对裂缝长度变化无明显响应。本文研究结果为采用阵列声波测井方法判断花岗岩储层中裂缝的发育状态提供了依据。

基于岩石力学的井周裂缝流体疏导性分析与产能评价

电成像测井技术与偶极横波远探测技术可以有效识别井周裂缝。对于裂缝性油气藏,由于裂缝作为油气主要的储集空间与渗流通道,因此对识别的井周裂缝进行流体疏导性能评价对于油田实际生产具有重要意义。利用岩石力学中的三维应力莫尔圆对地应力作用下从井壁延伸至储层的裂缝进行应力状态分析,并结合莫尔库仑破裂准则进行裂缝临界应力状态判别,进而评价整体的流体疏导性能。数值模拟结果表明,除地应力大小外,不同断层类型的地应力状态和孔隙压力大小也决定着裂缝的临界应力状态。根据裂缝面应力状态求取裂缝的摩擦系数并进行校正可以定量反映裂缝的流体疏导性能,将裂缝发育层段内校正后的裂缝摩擦系数加权于裂缝密度,可实现目标井段流体疏导性能定量评价并为产能评价提供可靠依据。在渤中19-6裂缝性潜山凝析气田的应用实例表明,该方法可以有效地分析井周裂缝的流体疏导性能,实现不同裂缝对于产能贡献的定量评价,评价结果与地层实际测试产能结果有较好的相关性,为现场试油与开采方案的制定提供有效指导。

潜山储层定量预测技术研究与应用——以珠江口盆地惠州凹陷H潜山为例

惠州凹陷古潜山埋藏深、构造复杂、储层非均质性强,“甜点”储层及潜山内幕复杂断裂体系表征难度大。从潜山储层成因机理出发,基于潜山风化裂缝带、内幕裂缝带储层主控因素的分析,形成了潜山储层定量预测关键技术。针对风化裂缝带,基于Keys-Xu岩石物理模型,构建新的弹性参数,提高了“甜点”储层的识别能力。针对内幕裂缝带,利用蚂蚁体技术提取优势方位断裂信息,再将提取出的不同方位优势断裂信息进行等权融合,实现对潜山内幕断裂的精细刻画。以上技术有效指导了惠州凹陷H潜山储层的勘探评价,为珠江口盆地潜山勘探提供了宝贵经验。

惠州油田火成岩潜山裂缝特征及主控因素

为明确惠州油田火成岩潜山油藏储层品质及开发潜力,运用岩芯、薄片、成像测井等资料对研究区潜山储层天然裂缝特征、发育主控因素进行了研究。结果表明,惠州油田潜山储层发育NW、NE及EW向3组优势裂缝体系,以NW向裂缝体系为主,裂缝倾角49°~60°,主要为中-高角度裂缝。识别出构造缝、溶蚀缝及成岩缝3类裂缝,构造缝是主要的裂缝类型,溶蚀缝次之,成岩缝为孤立缝,对储层物性贡献意义不大。构造作用是裂缝发育的主控因素,岩性、断层及流体作用为次要因素,多期次的构造运动是潜山岩石破裂成缝的力学基础,花岗岩及闪长岩是裂缝发育的优势岩类,边界大断层控制下的裂缝发育范围约150 m,潜山内部次级断层控制下的裂缝发育范围约80 m。采用多元信息概率融合方法预测了潜山风化带裂缝优势发育区,划分出4类裂缝发育优势区。研究成果对惠州油田潜山油气藏储层评价及开发方案研究具有参考意义。

西湖凹陷平湖斜坡A潜山储层特征与裂缝预测

西湖凹陷作为东海富生烃凹陷之一,其潜山领域具有良好的勘探潜力。A潜山位于西湖凹陷平湖斜坡,其潜山内幕储层特征复杂,非均质性强,弹性参数叠置,常规方法无法精细刻画潜山储层,制约了潜山勘探进程。该文利用钻井、岩心、分析化验及地震资料开展潜山内幕结构及储层类型分析,同时在地质模式的指导下,采用叠前方位各向异性及正演模拟方法对优质潜山储层开展预测。研究结果认为A潜山储层垂向上具有典型的二元结构,自上而下划分为风化裂缝带和内幕裂缝带,内幕裂缝带又可划分为强内幕裂缝带和弱内幕裂缝带。叠前方位各向异性裂缝预测表明风化裂缝带储层优于内幕裂缝带,潜山翼部储层优于潜山顶部储层,A潜山翼部风化裂缝带是有利的勘探方向。

南海油田惠州潜山裂缝性凝析油气藏控水实验

为建立潜山裂缝性凝析油气藏优化控水开发的模式,以南海油田惠州潜山裂缝性凝析油气藏H2-3井参数为基础,设计了气藏控水物理模拟实验,通过非均质储集层设计、实验参数设计、裂缝参数设计和控水实验方案设计,完成了弹性开采实验、连续封隔体控水实验、水敏凝胶控水实验、变密度筛管控水实验和变密度筛管+连续封隔体组合控水实验5组控水实验,对不同方案的控水效果进行了对比,并分析了各个控水工艺的机理。在此基础上,结合数值模拟进行验证,提出了气藏控水开采方案:气藏底水开采初期,水体推进为渐进式上升,中—后期为锥进式发展,后期底水一旦接触储集层裂缝,水体呈突进式侵入;各种方案的控水效果差异较为明显,连续封隔体和水敏凝胶在气井采气期对底水控制作用不明显,变密度筛管在采气初期控水效果较好,但气井见水后无法避免水窜风险。变密度筛管+连续封隔体组合控水效果较好,改变了底水锥进效应,与弹性开采相比,无水采气时间增加了8.84%,总采气时间增加了13.70%,采气量提高了10.40%。

古潜山内幕构造及储集体刻画——以胜利油区富台潜山为例

碳酸盐岩潜山储层蕴含资源量巨大,勘探前景广阔,是胜利油田的接替新领域。碳酸盐岩潜山油气藏多受构造活动、岩性变化和流体溶蚀等影响,其内幕储集空间非常复杂,油气开发难度大,准确地描述裂缝空间分布是潜山油藏开发的基本前提。这里以胜利油区富台潜山为例,通过研究该区域的地质背景并结合测井、地震资料对其进行地层划分,以深度学习为辅助手段实现了对全区进行高效的裂缝预测;在裂缝预测结果基础上进行断缝溶储集体刻画,并结合多地层的古地貌准确直观地展示了刻画结果。

塔里木盆地奥陶系缝洞型碳酸盐岩岩溶储层成因及勘探启示

以岩心薄片、实验分析数据、钻录井、测井、地震等资料为基础,按照储层成因机理对塔里木盆地奥陶系碳酸盐岩岩溶储层进行了分类,并对各类储层的分布、储集空间类型及主控因素进行了系统分析。研究结果表明:(1)塔里木盆地奥陶系缝洞型岩溶储层按成因可划分为5类,分别为(准)同生岩溶储层、层间岩溶储层、顺层岩溶储层、潜山(风化壳)岩溶储层和受断裂控制岩溶储层。(2)(准)同生岩溶储层分布于台缘或台内礁滩相,有效储层在台缘连片发育,在台内零星分布,由颗粒灰岩因海平面下降而短期暴露淋溶形成,基质孔和溶缝、溶洞均发育,通常叠加后期层间岩溶作用或潜山岩溶作用,从而形成复合型岩溶储层。(3)层间岩溶储层发育于内幕区,与碳酸盐岩层系内部中短期的平行或微角度不整合面相关,呈准层状分布,储集空间以洞穴型为主,裂缝-孔洞型和孔洞型次之。(4)顺层岩溶储层与潜山周缘的斜坡背景、先存孔隙和裂缝有关,环潜山周缘呈环带状分布,以洞穴型和裂缝-孔洞型为主,90%以上的溶蚀孔洞及洞穴通过断裂及裂缝相连通。(5)潜山(风化壳)岩溶储层发育于潜山区,与中长期的角度不整合面相关,受断裂和裂缝影响大,准层状分布,峰丘地貌特征明显,根据围岩岩性分为灰岩潜山岩溶储层和白云岩风化壳岩溶储层,灰岩缝洞系统发育、基质孔不发育,白云岩缝洞欠发育,以白云岩晶间溶孔、裂缝为主。(6)受断裂控制岩溶储层主要发育于内幕断裂发育区,缝洞发育埋深大、规模大、跨度长,沿断裂呈栅状分布,以裂缝-孔洞型为主,断裂-洞穴型次之,断裂和裂缝越发育,溶蚀孔洞和洞穴也越发育,单井试油产能更高更稳定。(7)研究区岩溶储层在内幕区大量发育,主要为顺层岩溶储层和受断裂控制岩溶储层,勘探潜力大。

叠前散射波形态滤波分离方法

对于渤中A凝析气田深层变质岩潜山内幕,常规基于反射波处理的地震资料信噪比低、成像品质差,难以有效预测内幕裂缝储层展布规律。而散射波场信息能够刻画地下非均质地质体,较好地反映潜山内幕裂缝、断裂。为此,提出了一种基于数学形态学滤波的叠前散射波分离方法。通过叠前共炮检距域道集分析,确定散射波与反射波的形态特征差异,即时距关系差异,并利用这一差异构建直线形结构元素,沿空间方向做形态滤波,得到反射波。将反射波从原始波场中减去,就获得了散射波。模型测试结果表明,基于形态滤波的叠前散射波分离方法得到了相对完整的散射波场,散射波提取精度高,有效改善了复杂地质体的成像效果;实际资料应用表明,散射波成像结果提升了潜山内幕裂缝储层表征效果,为渤中A凝析气田井位部署提供了技术支持。

渤海裂缝性油藏调剖体系研制与应用

针对渤海裂缝性潜山油藏非均质性强、注水效果差的问题,研制了一种用于调控裂缝的调剖体系。通过对聚合物、交联剂、缓凝剂筛选,优化出配方为3000 mg/L聚合物KW-3+2500 mg/L交联剂FQ+400 mg/L缓凝剂HN的调剖体系。室内评价实验表明,在90℃下该调剖体系成胶时间65 h以上,强度F级以上,高温下老化90 d无明显脱水,对裂缝岩心封堵率达到96%以上,可启动基质剩余油,提高采收率28.35%。渤海X油田应用了该调剖体系4井次,累计增油量达到32344 m3,取得良好的经济效益。

有限元数值模拟技术在潜山裂缝定量预测中的应用——以珠江口盆地惠州凹陷惠州26构造为例

潜山储层的裂缝发育预测是勘探开发领域一个技术难题。目前多采用地震刻画、地震属性提取、周边钻井资料揭示以及岩芯观察等方法对地下裂缝的分布情况进行预测,但存在不少问题。笔者等通过有限元数值模拟方法对珠江口盆地惠州26构造裂缝发育情况进行预测,并提出预测流程。该方法首先采用断层生长连接分析结合演化史分析建立合适的几何模型和数理模型,通过给定力学参数和边界条件,模拟裂缝主要形成期文昌期、恩平期的古构造应力场,最终通过对张应力和剪应力大小及分布的分析来预测储层构造裂缝的发育程度。模拟结果显示,文昌期裂缝强烈发育区位于F2断层西段和F1断层西段,在惠州26构造处,构造的高部位裂缝发育强度较强,在4井位置裂缝发育较弱,在7井位置发育较好的裂缝。恩平期受应力方向和大小的改变影响,主要的裂缝发育区集中在F2断层下盘惠州26构造高部位。将预测结果与钻井结果进行比较,预测结果和钻探结果较一致,印证了该方法在古潜山裂缝预测中的实用性。有限元数值模拟方法不仅能够恢复构造裂缝形成期构造应力场的分布情况,也可以对储层构造裂缝的分布及发育程度进行预测,为裂缝型潜山油气藏勘探开发提供技术支持。

中国海上潜山裂缝性储层测井评价研究进展

近年在中国渤海、南海海域陆续发现大中型潜山裂缝性油气田,使得潜山逐渐成为中国海上勘探开发的重要领域。潜山裂缝性储层岩石矿物组分复杂、储集空间多样、非均质性很强,从而给测井评价带来了前所未有的技术挑战。系统梳理渤海海域锦州25-1南、蓬莱9-1、渤中19-6、渤中13-2和南海东部惠州26-6等潜山油气田,从潜山裂缝性储层的岩石矿物特征、储层物性分布和储集空间结构出发,总结了潜山裂缝性储层测井评价的研究进展,主要包括石英、长石、云母等岩石矿物组分的精细解释,以不同类型渗透率为核心的储层参数计算,结合裂缝类型、密度、有效性等方面的综合评价;阐明了潜山裂缝性储层测井评价的技术难点,重点包含油、气、水层的准确识别,以裂缝宽度和裂缝延伸长度为核心的裂缝定量表征以及储层产出能力的分级预测;理清了潜山裂缝性储层测井评价的攻关对策,核心是实施测井采集—处理—解释一体化、研制—试验—应用一体化和测井—录井—测试一体化,三位一体有机结合,进行多方位、多角度、多层次地攻关研究,旨在系统地建立海上潜山裂缝性储层测井评价技术体系,从而为海上潜山裂缝性油气藏的高效勘探开发提供测井技术支撑。

基于常规测井的变质岩裂缝识别方法研究

BZ19-6气田变质岩潜山储层结构复杂、多样,裂缝发育且非均质性强。在储层评价中,识别有效的裂缝是一个紧迫的难题,而这对于该气田的勘探开发具有重要的意义。以岩性主要为花岗片麻岩、夹少量侵入岩的太古界为研究层位,通过对常规测井曲线进行重极标差(R/S)分析,以识别研究层位的裂缝发育程度,并通过计算Lg(R/S)的牛顿二阶差分值预测裂缝的发育位置。进一步将R/S分析结果与岩芯薄片裂缝观察统计和电成像图解释结果进行对比,建立了利用赫尔特指数识别花岗片麻岩储层裂缝发育程度分类标准。研究表明:(1)将R/S分析和牛顿差分法相结合改进的裂缝识别方法,在变质岩储层裂缝评价中具有可行性,可识别宽度>0.005 mm的裂缝;(2) Lg(R/S)曲线二阶差分值能够准确地识别天然裂缝的发育位置,并且KRxo与裂缝线密度呈正相关,相关性高;(3)岩性各向异性和裂缝充填情况对常规测井曲线R/S分析方法识别裂缝精度有影响。