碳酸盐台地构型单元定量刻画与建模策略OA
Quantitative characterization and modeling strategies of architectural units in carbonate platforms
碳酸盐台地内部储层受复杂的相带变化控制,发育潮道、礁滩等多种沉积微相.这些微相相互叠置,导致储层构型样式多样、宏观结构复杂.传统单一建模方法难以有效表征在差异沉积背景下快速相变的碳酸盐台地储层结构,有必要针对不同微相类型开展储层构型单元的定量刻画与建模策略研究.以伊拉克H油田为例,基于岩心、测井与地震资料的综合分析,对碳酸盐岩储层构型开展分级次解剖.识别出碳酸盐台地内部主要发育两类沉积构型单元组合,分别为潮道-生屑滩复合体和潮汐生物碎屑三角洲复合体.结合地震响应特征,刻画了各构型单元的界面形态及其空间展布规律.在此基础上,依据不同构型单元内微相的发育规模与演化规律,系统分析了其在平面与剖面上的差异叠置样式,进而构建了"分层分段"的碳酸盐台地储层建模策略.①潮道-生屑滩复合体主要发育于MB1-2层,构型单元厚度较为均一(平均单期厚度约15 m),宽/厚比较大.根据构型样式变化,可将其划分为摆动段、加积段与迁移段.各分段内均发育清晰的潮道-生屑滩复合体界面,分段之间的差异主要表现为:受单期潮道摆动影响,不同迁移方向的潮道对生屑滩的侵蚀切割强度各异,从而形成滩体相互切叠的特征.基于此,提出多级构型建模策略:五级构型模型采用确定性界面约束的确定性建模方法;四级构型模型在五级构型模型内部,采用基于目标模拟方法,建模参数依据统计所得的构型几何特征进行设定.②潮汐生物碎屑三角洲复合体主要发育于MB2层,构型单元厚度由中心向两侧明显减薄,平均单期厚度较大(约30 m),宽/厚比较小.根据构型样式变化,可将其划分为远端进积三角洲段、下切谷发育段和近端退积三角洲段.在五级确定性构型界面趋势约束下,四级构型模型采用多点指示模拟方法,结合潮汐三角洲前积模式进行训练图像学习与建模参数设置.该研究系统揭示了碳酸盐台地内部的构型类型及其几何参数特征,建立了基于几何特征的建模工作流程,为同类储层地质建模提供了参考.
Reservoirs within carbonate platforms are governed by complex variations in facies zones,exhibiting a wide range of sedimentary microfacies,including tidal channels and reef shoals.Since the sedimentary microfacies interbed with each other,carbonate platform reservoirs feature diverse architectural styles and complex macroscopic structures.Consequently,conventional individual modeling techniques are often inadequate to effectively characterize the reservoir structures of carbonate platforms that experienced rapid facies transitions under differential sedimentary settings.Therefore,it is necessary to develop quantitative characterization and modeling strategies for the architectural units of reservoirs tailored to different microfacies.By integrating core observations,logs,and seismic data,this study presents a hierarchical analysis of architectural units of carbonate reservoirs in the H oilfield in Iraq.As a result,two types of sedimentary architectural unit assemblages are identified within the carbonate platforms:tidal channel-bioclastic shoal complexes and tidal bioclastic delta complexes.Based on seismic response characteristics,the interface morphologies and spatial distribution patterns of these architectural units are delineated.Accordingly,for microfacies within these architectural units,we systematically analyze their differential overlapping styles in both plane and cross-section views based on their scales and evolution patterns.Furthermore,a layered and segmented modeling strategy is established for carbonate platform reservoirs.The analytical results indicate that tidal channel-bioclastic shoal complexes primarily occur within the MB1-2 layers.These architectural units exhibit roughly uniform thicknesses(average single-stage thickness of approximately 15 m)and high width-to-thickness ratios.Based on variations in architectural style,these complexes can be subdivided into three segments:meandering,aggradational,and migratory segments.Within each segment,distinct interfaces of tidal channel-bioclastic shoal complexes are identified.The primary differences among the three segments arise from tidal channels in different migration directions,which result in varying degrees of erosion and incision of bioclastic shoals under the influence of the meandering of single-stage tidal channels.Consequently,the shoal bodies show mutual truncation and stacking.Based on these findings,a multi-level architectural modeling strategy is proposed for tidal channel-bioclastic shoal complexes.Specifically,the 5th-level architectural model is established using a deterministic modeling method with deterministic interfaces as constraints.Then,the 4th-level architectural model is constructed within the framework of the 5th-level architectural model using the object-based modeling(OBM)method,with modeling parameters set based on the statistical geometric features of architectures.On the other hand,tidal bioclastic delta complexes are predominantly identified within the MB2 layer.These architectural units pinch out from the center toward both sides,featuring relatively large average single-stage thicknesses(approximately 30 m)and low width-to-thickness ratios.Based on variations in architectural style,these complexes can also be further subdivided into three segments:distal progradational delta,incised valley,and proximal retrogradational delta.Under the constraint of the 5th-level deterministic architectural interfaces,the 4th-level architectural models of tidal bioclastic delta complexes are established through multi-point statistics(MPS)simulation.During the modeling process,the progradational pattern of tidal deltas is incorporated for image training and modeling parameter setting.This study systematically reveals the architectural types and their geometric features within carbonate platforms and establishes modeling workflows based on geometric features,providing a reference for geological modeling of similar reservoirs.
乔占峰;邵冠铭;张宇;罗宪婴;付超;钱驵;康文君;李顺利
中国石油碳酸盐岩储层重点实验室,浙江 杭州 310023||中国石油 杭州地质研究院,浙江 杭州 310023||国家能源碳酸盐岩油气重点实验室,浙江 杭州 310023中国石油碳酸盐岩储层重点实验室,浙江 杭州 310023||中国石油 杭州地质研究院,浙江 杭州 310023||国家能源碳酸盐岩油气重点实验室,浙江 杭州 310023中国石油碳酸盐岩储层重点实验室,浙江 杭州 310023||中国石油 杭州地质研究院,浙江 杭州 310023||国家能源碳酸盐岩油气重点实验室,浙江 杭州 310023中国石油碳酸盐岩储层重点实验室,浙江 杭州 310023||中国石油 杭州地质研究院,浙江 杭州 310023||国家能源碳酸盐岩油气重点实验室,浙江 杭州 310023中国地质大学(北京)能源学院,北京 100083中国地质大学(北京)能源学院,北京 100083中国地质大学(北京)能源学院,北京 100083中国地质大学(北京)能源学院,北京 100083
能源科技
潮道滩坝潮汐三角洲构型组合构型样式储层构型单元碳酸盐台地
tidal channelbeach bartidal deltaarchitectural unit assemblagearchitectural stylearchitectural unit of reservoircarbonate platform
《石油与天然气地质》 2026 (2)
385-400,16
国家科技重大专项(2025ZD1406401)国家自然科学基金企业创新发展联合基金项目(U23B20154)中国石油碳酸盐岩储层重点实验室开放基金项目(RIPED-024-JS-1749)国家自然科学基金项目(42402150,41272133).
评论