The Integrated Approach to Seismic Attributes of Lithological Characterization of Reservoirs: Case of the F3 Block, North Sea-Dutch Sector

Technological development, particularly the development of signal processing, has contributed to the improvement of the quality of results in the analysis of the characteristics of hydrocarbon reservoirs. This scientific advance is especially marked by the introduction of seismic attributes in the characterization of reservoirs. This paper is aimed at evaluating the contribution of seismic attributes in the lithological characterization of hydrocarbon accumulation zones. Thus, it has been found that instantaneous attributes make it possible to highlight the different properties of reservoir rocks. Techniques for extracting three-dimensional volume attributes have been applied to a 3D seismic data volume of the F3 block in the Dutch sector of the North Sea. The purpose of using these volume attributes is to extract signal characteristics from lithofacies in hydrocarbon zones. The results provide a remarkable contribution to instantaneous seismic attributes in reservoir location, hydrocarbon detection, and reservoir lithological prediction. The instantaneous amplitude, the derivative of amplitude 1, the factor Q, the energy and the Hilbert transform are attributes which highlight the presence of hydrocarbons through the bright spots. Thus, curvature, similarity, dip, and coherence are useful in the determination of traps such as faults and anticlines. The crossing of the instantaneous amplitude and the instantaneous frequency makes it possible to analyze the lithofacies. In the same way, the analysis of the crossed diagrams between the porosity and the instantaneous amplitude made it possible to define the different layers of the reservoir.

Effects of structural characterizations on fragility functions of bridges subject to seismic shaking and lateral spreading

This paper evaluates the seismic vulnerability of different classes of typical bridges in California when subjected to seismic shaking or liquefaction-induced lateral spreading. The detailed structural configurations in terms of superstructure type, connection, continuity at support and foundation type, etc. render different damage resistant capability. Six classes of bridges are established based on their anticipated failure mechanisms under earthquake shaking. The numerical models that are capable of simulating the complex soil-structure interaction effects, nonlinear behavior of columns and connections are developed for each bridge class. The dynamic responses are obtained using nonlinear time history analyses for a suite of 250 earthquake motions with increasing intensity. An equivalent static analysis procedure is also implemented to evaluate the vulnerability of the bridges when subjected to liquefaction-induced lateral spreading. Fragility functions for each bridge class are derived and compared for both seismic shaking （based on nonlinear dynamic analyses） and lateral spreading （based on equivalent static analyses） for different performance states. The study finds that the fragility functions due to either ground shaking or lateral spreading show significant correlation with the structural characterizations, but differences emerge for ground shaking and lateral spreading conditions. Structural properties that will mostly affect the bridges＇ damage resistant capacity are also identified.

Reservoir stress path and induced seismic anisotropy： results from linking coupled fluid-flow/geomechanical simulation with seismic modelling

We present a workflow linking coupled fluid-flow and geomechanical simulation with seismic modelling to predict seismic anisotropy induced by non-hydrostatic stress changes. We generate seismic models from coupled simulations to examine the relationship between reservoir geometry, stress path and seismic anisotropy. The results indicate that geometry influences the evolution of stress,which leads to stress-induced seismic anisotropy. Although stress anisotropy is high for the small reservoir, the effect of stress arching and the ability of the side-burden to support the excess load limit the overall change in effective stress and hence seismic anisotropy. For the extensive reservoir, stress anisotropy and induced seismic anisotropy are high. The extensive and elongate reservoirs experience significant compaction, where the inefficiency of the developed stress arching in the side-burden cannot support the excess load.The elongate reservoir displays significant stress asymmetry,with seismic anisotropy developing predominantly along the long-edge of the reservoir. We show that the link betweenstress path parameters and seismic anisotropy is complex,where the anisotropic symmetry is controlled not only by model geometry but also the nonlinear rock physics model used. Nevertheless, a workflow has been developed to model seismic anisotropy induced by non-hydrostatic stress changes, allowing field observations of anisotropy to be linked with geomechanical models.

超深层“断裂破碎体”概念和地质模式及其地震表征方法

“断裂破碎体”是塔里木盆地富满油田超深层碳酸盐岩储层的一种重要赋存类型。对于该类储集体,目前尚存在着概念不清晰和地质模式不明确、缺乏适用的地震表征方法等问题。为此,利用野外露头、钻井、地震和生产动态等资料阐述“断裂破碎体”概念的内涵,建立了超深层碳酸盐岩油气藏“断裂破碎体”四种地质发育模式,并形成了超深层碳酸盐岩“断裂破碎体”智能地震内部结构刻画技术。研究结果表明:①“断裂破碎体”具有三个方面的内涵,即发育背景主要为超深碳酸盐岩台内致密灰岩地层;在断裂破碎作用下,内部孔—渗储集性能较好,储集空间类型多样(主要包括断裂破碎角砾间孔、张扭作用形成的空腔以及中、高角度裂缝);油藏的通源、油气运移的输导有利,油藏高度可达千米,是超深层致密灰岩储层油气聚集的极为有利部位。②“断裂破碎体”发育六种断裂构型要素,组成了单一滑动面、压隆核带、张扭空腔、栅状缝网等四类内部结构模式。③采用“有条件的对抗深度学习网络”能够较好地刻画断裂破碎体内部结构,预测结果的地质意义较为明确,并与实际情况吻合。该成果在实际生产中得到了较好的应用,对“断裂破碎体”油藏的高效勘探与开发具有实用和推广价值。

四川盆地元坝地区二叠系茅口组相控岩溶刻画及预测

通过岩溶古地貌恢复、倾角约束增强相干、相控岩溶地震反演和非线性伽马模拟等技术,对四川盆地元坝地区二叠系茅口组相控岩溶异常及有效储层分布进行了研究。研究结果表明:①四川盆地元坝地区二叠系茅口组在纵向上可划分为表层风化壳、垂直渗流带、水平潜流带3个岩溶作用带,茅三段相控岩溶储层受浅滩相带和岩溶作用共同控制,储层类型分为孔隙-孔洞型和半充填溶洞型。②岩溶残丘地貌相对较高,为岩溶作用供水区域,是相控岩溶发育的有利位置;溶丘平原地貌相对较低,为岩溶作用汇水区域。③倾角约束的增强相干技术可定性描述岩溶残丘内相控岩溶发育的有利带,研究区的该类储层主要分布于古地貌高部位,并呈北西向展布。④相控岩溶储层预测方法可以相对准确地预测有效岩溶储层的分布范围,研究区垄脊带、峰丛带岩溶储层最为发育,最大厚度为28m。

基于线性贝叶斯和改进的典型相关分析法的地震岩石物理反演

岩石物理反演作为一种直观的定量解释手段,是储层表征的一个重要研究课题,其中岩石物理模型是联系储层物性参数与弹性参数的桥梁.传统岩石物理反演往往需要在井位处校准岩石物理模型,而在地下介质复杂时,常规的岩石物理模型难以准确描述二者之间的关系,极大地影响了岩石物理反演的准确性.为降低岩石物理模型校准带来的误差,本文引入改进的典型相关分析(BP-CCA)法来构建储层物性参数与弹性参数之间的统计岩石物理关系,从而获得地下储层物性参数的空间展布信息.此外,该方法采用线性贝叶斯理论从叠前地震数据反演得到纵、横波速度及密度等弹性参数,具有较高的反演精度和计算效率.本文对提出的方法进行了合成数据实验和实际数据应用测试.结果表明,该方法可实现对储层参数的准确刻画,验证了其可靠性.

基于五维地震数据的火山机构刻画及岩相识别——以准噶尔盆地石炭系火山岩为例

五维地震数据可以更好地分析地震波在各向异性介质中传播的旅行时间、速度、振幅、频率和相位等属性随方位角的变化,而且炮检距信息与目标地质体的尺度、地层岩性和流体成分等存在相关性,方位角信息则与地层中的断裂、裂缝等的发育特征相关。为此,提出了基于五维地震资料的火山机构刻画和岩相识别技术。考虑到地下构造在垂直于走向方向的响应更明显的特点,通过构建方位分析窗提取优势方位信息,利用倾角成像增强处理的地震资料预测火山机构,利用倾角及方位角的变化计算相邻道的相似性,提高了地震资料的横向信噪比,明确了火山机构宏观分布范围;通过定义方位时窗,结合地震道反距离加权算法,提取每个方位对断裂最敏感的信息,提高了火山机构刻画精度,得到的火山形态更清晰;再结合核主成分分析(KPCA)融合优势属性预测火山岩有利岩相,精细预测了准噶尔盆地KM1井区的三期火山岩有利区带,为高效勘探、开发该区的火山岩储层奠定了基础。

四川盆地天府地区上三叠统须家河组四段致密储层砂体刻画及有利储层预测

四川盆地天府地区上三叠统须家河组四段(简称须四段)厚层砂岩夹薄层泥岩发育,为当前致密砂岩气的重要勘探层系。但受限于地震纵向分辨率,常规方法难以区分薄层泥岩,对该层段砂岩的精细刻画一直缺乏有效的手段,制约了对盆地砂体展布规律和有利目标区的认识。针对上述问题,建立钻井资料与地震相映射关系,在自然伽马曲线约束下,寻找最佳反演频率参数,提高井间砂体预测精度。采用波形指示模拟的方法精细刻画了上三叠统须家河组四段砂岩的展布特征。结果表明:须四段砂岩具有西厚(55.0~100.0 m)、东薄(15.0~50.0 m)的特征;与须三段相比,砂体厚薄变化转换带(坡折带)向克拉通内部迁移。统计地震工区内22口井数据,坡折带以西砂岩平均孔隙度高(8.0%)、储层厚度大(45.4 m)。结合构造演化、沉积相带展布、砂岩厚度和孔隙度变化,认为四川盆地天府地区上三叠统须家河组四段具有构造控坡折带、坡折带控储层的规律。坡折带以西的储层物性好、厚度大,为勘探有利区。研究结果对须四段勘探深入具有借鉴作用。

巴西桑托斯盆地S油田盐下地层的OBN地震数据与拖缆地震数据的对比

相较于拖缆地震数据,OBN地震数据品质较高,但OBN地震采集施工复杂、费用高昂,因此有必要厘清拖缆地震数据和OBN地震数据在成像质量以及构造和储层的刻画能力,了解OBN地震数据的相对优势,进而指导油气勘探、开发地震数据的优选。深入对比了针对深水盐下目标的OBN地震数据和拖缆地震数据:首先根据二者观测方式的特点,对比分析二者在偏移距、方位范围、照明度、信噪比和地震速度场方面的差异;然后针对复杂盐下地层成像难的特点,全面分析了两种数据的绕射波成像、断层成像、基底成像、纵横向分辨率等数据特征以及构造深度、地震反演等解释结果特征;最后针对OBN地震数据低频信号丰富的特点,通过测井数据滤波分析了丰富的低频信号对地质体轮廓刻画的作用,并提出了利用统计子波计算地震分辨率的方法。研究发现相较于拖缆地震,OBN地震作为大偏移距、宽方位的采集方式,使得其地震照明度更好和速度场精度更高,OBN地震数据品质更好;拖缆地震数据和OBN地震数据在盐下的构造形态和地震反演趋势大体一致,但OBN地震数据在构造和储层细节刻画上优势明显。OBN地震数据具有成像效果佳、断层反射清楚、基底响应清晰、地震分辨率高、地震频带宽且低频信号丰富、构造深度误差小、地震反演细节多等优点,研究结果可为同类型油田研究和应用拖缆地震和OBN地震提供较高的参考价值。

江西清江盆地岩盐溶腔的地震识别与特征分析——以樟树盐矿为例

清江盆地内部盐岩层与泥岩夹层呈规律性的薄互层特征,受泥岩夹层影响,水溶法形成的腔体形态不规则,传统的声呐测腔受腔体内部残留泥岩夹层影响,难以准确测算腔内真实形态。本文采用高精度三维地震勘探方法,查明研究区盐腔空间展布特征、腔体形态,为盐腔后续开发利用提供依据。

Turbidite Dynamics and Hydrocarbon Reservoir Formation in the Tano Basin: A Coastal West African Perspective

This study examines the turbidite dynamics and hydrocarbon reservoir formation in Ghana’s Tano Basin, which is located in coastal West Africa. Through an exploration of geological processes spanning millions of years, we uncover key factors shaping hydrocarbon accumulation, including source rock richness, temperature, pressure, and geological structures. The research offers valuable insights applicable to exploration, management, and sustainable resource exploitation in coastal West Africa. It facilitates the identification of exploration targets with higher hydrocarbon potential, enables the anticipation of reservoir potential within the Tano Basin, and assists in tailoring exploration and management strategies to specific geological conditions of the Tano Basin. Analysis of fluvial channels sheds light on their impact on landscape formation and hydrocarbon exploration. The investigation into turbidite systems unveils intricate interactions involving tectonics, sea-level fluctuations, and sedimentation patterns, influencing the development of reservoirs. An understanding of sediment transport and depositional settings is essential for efficient reservoir management. Geomorphological features, such as channels, submarine canyons, and distinct channel types, are essential in this situation. A detailed examination of turbidite channel structures, encompassing canyons, channel complexes, convex channels, and U-shaped channels, provides valuable insights and aids in identifying exploration targets like basal lag, channel levees, and lobes. These findings underscore the enduring significance of turbidite systems as conduits for sediment transport, contributing to enhanced reservoir management and efficient hydrocarbon production. The study also highlights how important it is to examine the configuration of sedimentary layers, stacking patterns, and angular laminated facies to identify turbidites, understand reservoir distribution, and improve well design. The dynamic nature of turbidite systems, influenced by basin characteristics such as shape and slope, is highlighted. The research provides valuable insights essential for successful hydrocarbon exploration, reservoir management, and sustainable resource exploitation in coastal West Africa.

Performance of Continuous Wavelet Transform over Fourier Transform in Features Resolutions

This study presents a comparative analysis of two image enhancement techniques, Continuous Wavelet Transform (CWT) and Fast Fourier Transform (FFT), in the context of improving the clarity of high-quality 3D seismic data obtained from the Tano Basin in West Africa, Ghana. The research focuses on a comparative analysis of image clarity in seismic attribute analysis to facilitate the identification of reservoir features within the subsurface structures. The findings of the study indicate that CWT has a significant advantage over FFT in terms of image quality and identifying subsurface structures. The results demonstrate the superior performance of CWT in providing a better representation, making it more effective for seismic attribute analysis. The study highlights the importance of choosing the appropriate image enhancement technique based on the specific application needs and the broader context of the study. While CWT provides high-quality images and superior performance in identifying subsurface structures, the selection between these methods should be made judiciously, taking into account the objectives of the study and the characteristics of the signals being analyzed. The research provides valuable insights into the decision-making process for selecting image enhancement techniques in seismic data analysis, helping researchers and practitioners make informed choices that cater to the unique requirements of their studies. Ultimately, this study contributes to the advancement of the field of subsurface imaging and geological feature identification.

中国地震沉积学研究现状和发展思考

地震沉积学是地震地层学和层序地层学的延续发展。最近10多年来,地震沉积学研究受到人们的高度重视,在地震沉积学理论、陆相碎屑沉积砂体、海相沉积砂体、碳酸盐岩和混积岩刻画、地震成岩相预测、砂体精细表征和开发地质应用、地球物理新方法新技术、RGB(Red-Green-Blue)地震属性融合、储集层预测技术以及三维可视化技术雕刻地质体等10个方面取得了长足进展。未来地震沉积学应该关注地震地貌学理论模型、地震岩性学新方法、勘探地震沉积学、开发地震沉积学、地球物理反演新方法和人工智能技术等方面的研究,不断完善地震沉积学理论方法,拓展地震沉积学在油气勘探开发等领域的应用,助力油气勘探开发提高经济效益。

Analysis Method and Application of Multiple Antiquities Sources in the Shahejie Formation of the Paleogene in the Southern Bohai Sea

B Oilfield is the most representative mid to deep oil field in the Bohai Sea, with the main oil bearing intervals being the upper and middle Shahejie-3 sections of the Paleogene Shahejie Formation. Through the development of ancient landforms, characterization of material source channels, analysis of missing heavy mineral sources, and seismic reflection characteristics of multiple material source missing, the material sources of the middle and upper Shahejie-3 sections are analyzed. During the sedimentation period of the II oil formation in the middle section of the Shasan Formation, the study area was mainly dominated by the Kendong Uplift source rocks;During the sedimentation period of the I oil formation in the middle section of the Shasan Formation, there were three material sources in the study area, namely the Kendong Uplift, the Laibei Low Uplift, and the Weibei Uplift. The Kendong Uplift was the main material source, followed by the Laibei Low Uplift;During the sedimentation period of the Upper Shasan Formation, the study area still had three sources of material supply simultaneously. At this time, the Laibei Low Uplift was the main source area, while the Kendong Uplift and Weibei Uplift had a relatively small supply capacity for the study area. In the analysis of archaeological sources, the distribution characteristics of the sedimentary system in the third section of the Shahejie Formation have been clarified, providing a research basis for the later development and adjustment of the oilfield.

密井网条件下井震联合低级序断层识别方法

低级序断层是影响剩余油聚集和注采关系的主要地质控制因素之一,油田开发后期对准确描述低级序断层的位置和走向提出了更高的精度要求。本文基于叠后地震资料,通过地震数据高频响应增强处理及蚂蚁体地震属性的提取,采取井点钻、测井、井间地震资料的联合解释方式,对工区断距2m以上的低级序断层进行了识别和描述,并得到开发动态数据的验证。由此认识到:充分利用并挖掘井-震联合勘探的潜力,能有效提高开发阶段小尺度地质体的描述精度,并为油藏描述提供更准确的地质模型。

地震波反演成像方法的理论分析与对比

全波形反演、旅行时层析、最小二乘偏移和偏移速度分析具有相同的反演框架,以Bayes估计理论为基础对这些方法进行了分析和对比,证明了全波形反演能够利用最多的地震信息,但多重因素的叠加加大了其实用性的难度。针对这一问题,以特征波形反演为指导,对提取的地震波场的特征化信息进行了地震反演,并对其反演方案进行了理论分析和对比。

随机模拟技术在油田勘探阶段油藏描述中的应用

以塔中 16 16 1井区为例 ,探讨了随机模拟技术在油田勘探阶段油藏描述中的应用。针对勘探阶段油藏钻井少、生产数据缺乏的实际情况 ,对储层随机模拟过程中出现的问题 ,如变异函数求取、模型的筛选等 ,进行了初步的分析 ,并提出了相应的解决方法。利用序贯高斯模拟、指示高斯模拟和模拟退火对该井区的储层参数进行了随机建模 ,较好地描述了储层空间分布的不确定性 ,发现了潜在的油藏延伸带 ,并给出了油气储量的可能分布 。

应用高分辨率地震技术识别下切谷--松辽盆地杏树岗泉头组解释实例

下切谷的下切与沉积作用通常造成与下伏地层呈不整合接触关系,且形成独特的几何外形和充填特征。基于宽频带高分辨率三维地震资料,本文在松辽盆地北部杏树岗地区泉头组地层中识别出下切谷,在探讨典型下切谷地震反射的几何结构特征和频率振幅特征基础上,通过井震对比、三维地震精细解释及三维可视化分析,预测了泉头组下切谷发育带,为该区确定层序界面及其性质提供了依据。该区下切谷沉积层为低位域晚期碎屑沉积物,其内部河道砂储层较发育;下切谷不整合面是油气横向运移的有利通道,其中河道砂是油气运移和聚集的重要场所。

致密砂岩储层多尺度裂缝地震预测技术--以川西XC地区为例

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