储层粒度神经网络预测模型研究

国内外多年的研究表明，储层粒度特征值（d50）、非均质系数（d40=d90）是防砂设计的基础。常规获取粒度分布 范围的方法主要有激光粒度测试法（LDA）与筛析法（SA），两种方法均需要通过岩芯粒度测试来获取数据，而在制定 开发井的完井防砂措施时往往没有实际开采层位的岩芯，只能参照探井粒度数据进行设计，从而导致较大的误差。针 对该问题，从测井的角度出发，开展了储层粒度与多种测井曲线的响应关系的研究，采用神经网络技术，建立了探井伽 马、密度测井项与实测粒度特征值三者样本库，训练出满足工程需要的学习网络，进而结合开发井测井资料，获得了整 个粒度纵向分布剖面，为防砂分层设计提供准确的基础数据支撑。目前，该方法在中国海上多个油田的分层防砂优化 设计中获得了成功应用，预测误差可控制在10% 以内。

Research on Neural Network Prediction Model of Reservoir Particle Size

According to researches at home and abroad，sand control design is based on reservoir particle size characteristic value. LDA and SA are the conventional methods used to analyze particle size distributions. Both methods requires data through core particle size testing. But sand control design can only use test well data，because no core at actual producing position can be used when sand control measure is established，which can result in major errors. This article elaborates the relevance about median grain size and gamma ray logging or density logging through researches on reservoir particle size and variety of log curve response relation. And then through establishing sample pool of gamma ray logging or density logging and characteristic value，and by neural network technology we trained learning network satisfing engineering requirements. Then the particle size longitudinal distribution profile can be established according to development well logging data. This profile supplied data basis for sand control layering design. At present，this method has been successfully used in several Chinese offshore oil field in sand control optimization with errors below 10%.