ESTIMATING CAPILLARY PRESSURE FROM NMR MEASUREMENTS USING A PORE-SIZE-DEPENDENT FLUID SUBSTITUTION METHOD

SPWLA 60th Annual Logging Symposium Transactions Pub Date : 2019-06-20 DOI:10.30632/T60ALS-2019_II

You Wang, David Medellin, C. Torres‐Verdín

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引用次数: 4

Abstract

This report introduces a workflow to calculate capillary pressure curves from NMR transverse relaxation time ( 𝑇 (cid:2870) ) distributions of partially hydrocarbon-saturated measurements. First, a pore-size-dependent fluid-substitution (PSDFS) joint inversion method is developed to correct 𝑇 (cid:2870) distributions for hydrocarbon effects in partially hydrocarbon-saturated rocks. A PSDFS joint inversion on the 𝑇 (cid:2870) distributions of samples at different hydrocarbon saturations is used to estimate input parameters for fluid substitution and to reconstruct the fully water-saturated 𝑇 (cid:2870) distribution. Next, the 𝑇 (cid:2870) distribution of the fully water saturated sample is converted to a pore-size distribution using an estimated surface relaxivity. Finally, assuming a linear relationship between pore and throat size distributions, the saturation-dependent capillary pressure curve can be estimated using a triangular tube model. The PSDFS joint inversion is validated on NMR measurements of Berea sandstone samples with different values of hydrocarbon saturation. The feasibility of our joint inversion method is confirmed by comparing the calculated fully water-saturated 𝑇 (cid:2870)

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估算毛细管压力从核磁共振测量使用孔径依赖流体替代方法

本报告介绍了一种工作流程来计算毛细管压力曲线的NMR横向松弛时间(𝑇(cid:2870))分布的部分烃饱和测量。首先，建立了基于孔隙大小的流体取代(PSDFS)联合反演方法，校正𝑇(cid:2870)分布对部分含烃岩石中油气效应的影响。利用PSDFS联合反演不同烃饱和度下样品𝑇(cid:2870)分布，估计流体替代的输入参数，重建完全水饱和𝑇(cid:2870)分布。接下来，利用估计的表面松弛度将完全饱和水样品的𝑇(cid:2870)分布转换为孔径分布。最后，假设孔喉尺寸分布呈线性关系，可以使用三角管模型估计饱和相关的毛细管压力曲线。通过对不同含烃饱和度的Berea砂岩样品进行核磁共振测量，验证了PSDFS联合反演方法的有效性。通过对比计算得到的完全水饱和𝑇(cid:2870)，验证了联合反演方法的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SPWLA 60th Annual Logging Symposium Transactions

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