地质和生产数据匮乏的凝析气田三维建模与历史拟合新方法

D. Grytsai, Petro Shtefura, Vadym Dodukh
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引用次数: 0

摘要

在地质和生产数据有限的情况下,开发了一种方法,确保将岩石物理、地质和流体动力学模型整合为永久3D模型的组成部分,建立描述整个系统的参数之间的物理关系。在该方法中,建模是基于连续页岩体积和孔隙度曲线的解释结果。在对岩心数据进行分析的基础上,建立了与其他参数的多向量物理关联。为了区分储层和非储层,定义了页岩体积的临界值;为了排除无过滤的致密储层,设置了孔隙度临界值。使用Winland R35方法计算孔喉半径,从而将储层划分为几类。对于每一类储层,渗透率与孔隙度的依赖关系都是确定的,Wright-Woody-Johnson方法可以推导出束缚水含量的方程。已经开发了一个配置工作流系统,允许自动重新建模并简化其历史匹配。该技术已成功应用于几个凝析气田的三维模型,这些油田钻井水平高,开发历史长,地质和生产数据有限。工作流系统和提出的方法通过将历史匹配过程分成几个阶段来简化历史匹配过程。在每个阶段,根据输入数据的类型,匹配各种参数(产量、油藏和井口压力等)。由于所有组件的跨功能相关性,该模型大大减少了不确定性参数,并允许对整个井的开发历史进行详细的历史匹配。通过钻新井等地质和技术措施对所得结果进行了验证,结果与预测指标具有较高的收敛性。在有限的地质和生产数据条件下,提出的建模和历史匹配方法允许:-确保岩石物理,地质和流体动力学模型作为永久3D模型的组成部分的整合和相关性;-自动化和简化建模、历史匹配和更新模型;——提高参数匹配结果的质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Integrated Approach to 3D Modeling and History Matching of Gas Condensate Fields with Paucity of Geological and Production Data
A methodology has been developed that, in conditions of limited geological and production data, ensures the integration of petrophysical, geological, and hydrodynamic models as components of a permanent 3D model, establishing physical relationships between parameters that describe the entire system. In the proposed method, the modelling is based on the results of the interpretation of continuous shale volume and porosity curves. Based on the analysis of core data, the multi-vector physical correlations with other parameters are made. To distinguish the reservoirs and non-reservoirs, the cut-off values of shale volume are defined; to exclude tight reservoirs with no filtration, the cut-off values of porosity are set. Using the Winland R35 method the radius of the pore throat is computed, allowing dividing the reservoirs into classes. For each class of reservoirs, the permeability vs porosity dependence is determined, and the Wright-Woody-Johnson method allows deriving equations for the bound water content. A system of configured workflows has been developed and allows automating re-modelling and simplifying its history matching. This technique was successfully applied to several 3D models of gas condensate fields, which, with a significant drilling level on the areas and a long development history, are characterized by limited geological and production data. Workflows System together with the proposed approach allowed simplifying the history matching process by splitting it into several stages. At each stage, depending on the type of input data, various parameters were matched (production, reservoir and wellhead pressures, etc.). Due to cross-functional correlation of all components, the model has significantly reduced the uncertainty parameters and allowed a detailed history matching of the development history for the entire well stock. The results obtained were tested by several geological and technological measures, including drilling new wells, and showed high convergence with the forecast indicators. The proposed approach to modelling and history matching in conditions of limited geological and production data allows: – ensuring integration and correlation of petrophysical, geological, and hydrodynamic models as components of a permanent 3D model; – automating and simplifying the modelling, history matching, and updating a model; – improving the quality of parameters’ matching results.
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