相控储层建模在胜南油田的应用  被引量:23

Application of facies-controlled reservoir modeling in Shengnan Oilfield

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作  者:严申斌[1] 李少华[2] 邓恒[3] 

机构地区:[1]长江大学油气资源与勘探技术教育部重点实验室,湖北荆州434023 [2]长江大学地球科学学院,湖北荆州434023 [3]长江大学信息与数学学院,湖北荆州434023

出  处:《断块油气田》2008年第1期16-17,60,共3页Fault-Block Oil & Gas Field

基  金:湖北省教育厅科学技术研究项目(Q200612001)

摘  要:针对胜南油田钻井资料少,不同微相物性差别大等特点,为了提高随机建模的精度,降低模拟实现中的不确定性,提出了沉积微相控制下的(相控)储层建模方法。首先,利用序贯指示模拟方法建立能够表征储层较大规模非均质性的沉积微相模型;在沉积微相模型建立之后,采取相控物性参数建模方法,分小层分微相统计各种物性参数分布特征;然后利用序贯高斯模拟方法分别进行模拟,建立了研究区的孔隙度模型、渗透率模型和含油饱和度模型。结果证明按此方法建立的模型效果较好,客观反映了地质实际,为胜南油田下一步滚动勘探开发提供了地质依据。A method of reservoir modeling constrained by sedimentary facies is proposed in order to improve the accuracy of the simulation and decrease the uncertainties in simulation in terms of the features that drilling data are less and that the petrophysics vary quickly within different microfacies in Shenguan Oilfield. At first,the 3D sedimentary microfacies model is established by using the method of sequential indication simulation.Then, the petrophysics models, including porosity model, permeability model and oil saturation model, are built under the control of microfacies model by using the method of sequential Gauss simulation,which is that the petrophysics of different layers and different microfacies are calculated and simulated separately. The geological model proved in this way is effective and it can be used to guide the following progressive exploration and development.

关 键 词:随机建模 沉积微相 相控建模 物性参数 

分 类 号:TE122.23[石油与天然气工程—油气勘探]

 

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