机构地区:[1]中国石油大学(华东)地球科学与技术学院,青岛266580
出 处:《地球物理学报》2016年第1期277-286,共10页Chinese Journal of Geophysics
基 金:国家自然科学基金石油化工联合基金重点项目(U1562215);国家重点基础研究发展计划(973)项目(2013CB228604);国家科技重大专项(2011ZX05030-004-002;2011ZX05006-002;2011ZX05009-003);中国博士后基金;青岛市博士后启动项目;中石化重点实验室基金(WTYJY-WX2014)联合资助
摘 要:深部储层地震资料通常照明度低、信噪比低、分辨率不足,尤其是缺乏大角度入射信息,对深部储层流体识别存在较大影响.Gassmann流体项是储层流体识别的重要参数,针对深层地震资料的特点,本文首先在孔隙介质理论的指导下,推导了基于Gassmann流体项与剪切模量的两项AVO近似方程.通过模型分析,验证了该方程在小角度时与精确Zoeppritz方程误差很小,满足小角度入射条件下的近似精度要求.然后借助Connolly推导弹性阻抗的思想,推导了基于Gassmann流体项与剪切模量的两项弹性阻抗方程.针对深部储层地震资料信噪比差的特点,利用奇偶反射系数分解实现了深部储层基追踪弹性阻抗反演方法,最后提出了基于基追踪弹性阻抗反演的Gassmann流体项与剪切模量的求取方法,并将提取的Gassmann流体项应用于深部储层流体识别.模型测试和实际应用表明该方法稳定有效,具有较好的实用性.Fluid discrimination is an important technology for reservoir characterization in seismic exploration.Despite many years of studies on this tool,many problems remain unsolved.The conventional pre-stack inversion method is implemented based on three-parameter approximation.Usually,the density information is contained in three-parameter inversion. While for deep reservoirs,the maximum angle of incidence is not enough to invert the density information,and the low signal-to-noise ratio(SNR)of the data makes the inversion unstable.With the unstable pre-stack inversion,there will be more uncertainty in fluid identification.In order to stabilize the inversion and improve the accuracy of fluid identification for deep reservoirs,we present an identification method for deep reservoir fluids based on basis pursuit elastic impedance inversion.According to the theory of porous media,the f-μtwo-term AVO approximate equation is derived in terms of Gassmann fluid term(f)and shear modulus(μ).We make a comparison of the reflection coefficients calculated by Zoeppritz equation,f-μ-ρthree-term approximation and f-μtwo-term approximation.As elastic impedance(EI)inversion is more reliable thanAVO/AVA inversion,we derive the two-term elastic impedance equation based on the idea proposed by Connolly.The model constrained basis pursuit inversion is proposed for elastic impedance inversion,which can improve the stability of inversion for elastic impedance.After implementing the inversion for two-angle elastic impedance,we present the fluid factor and shear modulus extraction method by utilizing the two-term elastic impedance equation.We use the well log to confirm the validity of our method.Finally,we apply the method to a real deep reservoir data to identify the fluid saturated in the reservoir.The derived two-parameter equation is close to the Zoeppritz equation when the angle of incidence is less than 20°,and it has almost the same accuracy as f-μ-ρthree-term approximation equation.Therefore,the f-μtwo-paramete
关 键 词:深部储层 两项AVO近似 两项弹性阻抗方程 基追踪 流体识别
分 类 号:P631[天文地球—地质矿产勘探]
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