频谱分解及地质模型反演新方法在滩坝砂沉积特征及发育模式研究中的应用
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摘要
基于研究区三维高精度地震资料,根据地震沉积学原理,利用频谱分解、地震反演等岩性地球物理技术,并结合地质、测井、录井资料,对博兴油田沙四上亚段滩坝砂储层进行有效预测。结果表明:30 Hz为最佳调谐频率值;沙四上中部砂体最发育,沉积特征较为显著;滩坝砂经历了一次明显"湖退砂进"的沉积演化过程;研究区滩坝砂沉积模式呈湖退进积"坝"砂沉积为主,湖进退积"滩"砂、浅湖泥沉积为主的特征;滩坝砂沉积主要控制因素为水动力作用和古地形条件等。
Based on 3D high-precision seismic information and seismic sedimentology principle,beach-bar facies reservoir of Upper Es4 formation of Boxing Oilfield were predicted by using spectrum decomposition,seismic inversion of seismic sedimentology and geology,logging,borehole logging information.The results show that 30 Hz is the optimum tuning frequency.Sandstone is the most development in the middle part of Upper Es4 formation and its sedimentary characteristic is remarkble.Beach-bar sand boby undergoes obvious "sandstone sedimentation under the water regression period" evolution process.Beach-bar sedimentary model shows its giving priority to "bar" sand sedimentation under the water regression period,while "beach" sand and shallow lake mud sedimentation under the water transgression period.Hydrodynamism and palaeotopography condition are the main control factors of beach-bar sedimentation.
Based on 3D high-precision seismic information and seismic sedimentology principle,beach-bar facies reservoir of Upper Es4 formation of Boxing Oilfield were predicted by using spectrum decomposition,seismic inversion of seismic sedimentology and geology,logging,borehole logging information.The results show that 30 Hz is the optimum tuning frequency.Sandstone is the most development in the middle part of Upper Es4 formation and its sedimentary characteristic is remarkble.Beach-bar sand boby undergoes obvious "sandstone sedimentation under the water regression period" evolution process.Beach-bar sedimentary model shows its giving priority to "bar" sand sedimentation under the water regression period,while "beach" sand and shallow lake mud sedimentation under the water transgression period.Hydrodynamism and palaeotopography condition are the main control factors of beach-bar sedimentation.
引文
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[6]POSAMENTIER H W,KOLLA V.Seismic geomorpholo-gy and stratigraphy of depositional elements in deep water settings[J].Journal of Sedimentary Research,2003,73(3):367-388.
[7]ZENG H L,HENTZ T F.High frequency sequence stra-tigraphy from seis mic sedimentology:applied to Mio-cene,Vermilion Block50,Tiger Shoal area,offshore Louisina[J].AAPG Bulletin,2004,88(2):153-174.
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[10]张国栋,刘萱,田丽花,等.综合应用地震属性与地震反演进行储层描述[J].石油地球物理勘探,2010,45(增刊1):139-143.ZHANG Guo-dong,LIU Xuan,TIAN Li-hua,et al.In-tegrated application of seismic attribute and seismic in-version in reservior characterization[J].Petroleum Geo-physical Exploration,2010,45(sup1):139-143.
[11]曹丹平,印兴耀,张繁昌,等.井间地震约束下的高分辨率波阻抗反演方法研究[J].石油物探,2010,49(5):426-429.CAO Dan-ping,YIN Xing-yao,ZHANG Fan-chang,et al.Study of high-resolution impedance inversion method constrained by crosswell seismic data[J].Geophysical Prospecting for Petroleum,2010,49(5):426-429.
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