Reservoir Modeling of Fan Delta with Sparse Wells: A Case from CFD Oilfield in Shijiutuo Uplift, Bohai Bay Basin

Xiaoming Ye, Pengfei Wang, Junfei Li, Jianmin Yang, Feifei Miao, Ting Li, Xinlei Shi
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Abstract

The third Member of Dongying Formation reservoir in CFD oilfield is steep slope fan-delta deposits; it was penetrated by 6 wells, each well belongs to different fan body. 143 meters oil reservoir was found in well 1, the lithologic combination are complex pebbly sandstone and sandstone with undeveloped interlayer. The reservoir feature is low porosity and low permeability, large thickness with quick lateral variance, and strong internal heterogeneity, which made reservoir characterization challenging. Firstly, high resolution sequence stratigraphic framework of the third Member of Dongying Formation reservoir was established by using of core, log and seismic data, guided by sequence stratigraphy and sedimentology. Then, microfacies classification scheme was determined by actual data and the depositional model. The spatial distribution regularity of fan delta and its microfacies was researched by seismic sedimentology attribute slice and sedimentary numerical simulation. Combined with rock composition features, physical properties, diagenetic characteristics, etc., reservoir classification evaluation was researched. Lastly, a geological model was established for quantitative prediction of the 3d distribution and physical distribution of each reservoir type. The third Member of Dongying Formation reservoir of well 1 block was divided into Lowstand Systems Tract and Transgressive Systems Tract, subdivided into six subsequence sets and 11 subsequences. Good reservoir was mainly distributed in the upper subsequences of Transgressive Systems Tract. Through fine seismic explanation, the plane distribution of each subsequence was determined. The fan delta was divided into six microfacies, including main channel, sheetflood sand beach, braided channel, overflow sand beach, sheet sand and lacustrine mudstone. Middle-fine sandstone and well sorted pebbly coarse sandstone in braided channel and main channel are good reservoir. Based on seismic sedimentology, different strata slicing schemes were used to extract seismic attributes for spatial distribution prediction of good reservoir. Together with sedimentary numerical simulation, the planar distribution and vertical evolution of fan delta and its microfacies were researched, then fan delta sedimentary model of good reservoir developed and Transgressive Systems Tract was established. Based on the study above, the reservoir was divided into four types with different physical characteristics. Then reservoir distribution and physical property distribution of all types were quantitatively predicted by geological modeling. Lastly, a more accurate geological model was provided for oilfield development plan design. Geological model of CFD oilfield was established by comprehensive application of sequence stratigraphy, seismic sedimentology and sedimentary numerical simulation. The modeling method adequately simulated the reservoir heterogeneity and fluid flow characteristics of complex fan delta reservoir with sparse wells in oilfield development plan design stage. The method will be used to guide the fine characterization of more similar oilfields in Bohai Bay Basin.
扇三角洲稀疏井储层建模——以渤海湾盆地石九沱凸起CFD油田为例
CFD油田东营组三段储层为陡坡扇三角洲沉积;共钻6口井,每口井属于不同的扇体。1井发现143 m油藏,岩性组合为复杂含砾砂岩和层间不发育砂岩。储层具有低孔低渗、厚度大、横向变化快、内部非均质性强等特点,为储层表征带来了挑战。首先,以层序地层学和沉积学为指导,利用岩心、测井和地震资料,建立了东营组三段储层的高分辨率层序地层格架;结合实际资料和沉积模式,确定了微相分类方案。通过地震沉积学属性切片和沉积数值模拟研究了扇三角洲及其微相的空间分布规律。结合岩石组成特征、物性、成岩特征等,对储层分类评价进行了研究。最后,建立了地质模型,定量预测了各类储层的三维分布和物性分布。将1井区块东营组三段油藏划分为低位体系域和海侵体系域,再划分为6个子层集和11个子层集。良好储层主要分布在海侵体系域的上亚层。通过精细的地震解释,确定了各子序列的平面分布。将扇三角洲划分为6个微相,分别为主河道、片洪沙滩、辫状河道、溢流沙滩、片洪沙滩和湖相泥岩。辫状河道和主河道中的中细砂岩和分选良好的含砾粗砂岩是良好的储层。以地震沉积学为基础,采用不同的地层切片方案提取地震属性,预测优质储层空间分布。结合沉积数值模拟,研究了扇三角洲及其微相的平面展布和垂向演化,建立了储层发育良好的扇三角洲沉积模式和海侵体系域。在此基础上,将储层划分为物性不同的4种类型。通过地质建模,定量预测了各类储层分布和物性分布。最后,为油田开发方案设计提供了更为准确的地质模型。综合应用层序地层学、地震沉积学和沉积数值模拟等方法,建立了CFD油田地质模型。该建模方法在油田开发方案设计阶段充分模拟了稀疏井复杂扇三角洲油藏的储层非均质性和流体流动特征。该方法将用于指导渤海湾盆地更多类似油田的精细表征。
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