Estimation of water saturation based on optimized models in tight gas sandstone reservoirs: a case study of Triassic Xujiahe Formation in northwestern Sichuan Basin

IF 2.3 4区 地球科学 Acta Geophysica Pub Date : 2024-06-25 DOI:10.1007/s11600-024-01393-5
Xiaoyong Xia, Bing Han, Bing Xie, Qiang Lai, Yuexiang Wang, Shaowu Zhu
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Abstract

Water saturation estimation faced a great challenge in tight gas sandstone reservoirs because of the effect of pore structure and strong heterogeneity. The classic Archie’s equation cannot be always well used. To quantify the effect of pore structure to rock resistivity in tight gas sandstones, taking Triassic Xujiahe Formation of northwestern Sichuan Basin as an example, 35 core samples were recovered and applied for resistivity experiments in laboratory under the simulated formation temperature and pressure environment, and 18 of them were simultaneously applied for nuclear magnetic resonance (NMR) and high-pressure mercury injection experimental measurements. Relationships between pore structure and resistivity parameters were analyzed. The results clearly illustrated that cementation exponent (m) and saturation exponent (n) were heavily affected by pore structure. Rocks with superior pore structure contained relatively higher cementation exponent and lower saturation exponent, and vice versa. Afterward, we raised a parameter of pore size index, which was defined as the ratio of macropore and micro-pore percentage contents, to characterize rock pore structure, and established a model to calculate optimal saturation exponent from NMR data. Meanwhile, cementation exponent prediction model was also raised by combining with porosity and irreducible water saturation (Swirr). Combining with calculated cementation exponent and saturation exponent, we optimized the Archie’s equation to predict water saturation in our target tight gas sands. Field examples illustrated that the predicted cementation exponent and saturation exponent matched well with core-derived results. The absolute errors between predicted cementation exponent and saturation exponent with core-derived results were lower than 0.05 and 0.07, separately. By using optimized Archie’s equation, water saturations were precisely predicted from well logging data in our target tight gas sandstone reservoirs; whereas, the classic Archie’s equation underestimated formation water saturation.

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基于优化模型的致密气砂岩储层含水饱和度估算:四川盆地西北部三叠系徐家河地层案例研究
由于孔隙结构和强烈异质性的影响,致密气砂岩储层的含水饱和度估算面临巨大挑战。经典的阿奇方程并不能一直很好地使用。为了量化孔隙结构对致密气砂岩岩石电阻率的影响,以四川盆地西北部三叠系徐家河地层为例,采集了 35 个岩心样品,在实验室模拟地层温度和压力环境下进行了电阻率实验,其中 18 个样品同时进行了核磁共振和高压注汞实验测量。分析了孔隙结构与电阻率参数之间的关系。结果清楚地表明,胶结指数(m)和饱和指数(n)受孔隙结构的影响很大。孔隙结构优越的岩石固结指数相对较高,饱和指数相对较低,反之亦然。随后,我们提高了孔隙度指数参数,将其定义为大孔隙与微孔的百分比含量之比,以表征岩石的孔隙结构,并建立了一个模型,根据核磁共振数据计算最佳饱和指数。同时,结合孔隙度和不可还原水饱和度(Swirr),提出了胶结指数预测模型。结合计算出的胶结指数和饱和指数,我们优化了阿奇方程,以预测目标致密气砂中的含水饱和度。现场实例表明,预测的胶结指数和饱和指数与岩心得出的结果非常吻合。预测的胶结指数和饱和指数与岩心衍生结果之间的绝对误差分别低于 0.05 和 0.07。通过使用优化的阿奇方程,可以根据测井数据精确预测目标致密气砂岩储层的含水饱和度;而传统的阿奇方程则低估了地层含水饱和度。
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来源期刊
Acta Geophysica
Acta Geophysica GEOCHEMISTRY & GEOPHYSICS-
CiteScore
3.80
自引率
13.00%
发文量
251
期刊介绍: Acta Geophysica is open to all kinds of manuscripts including research and review articles, short communications, comments to published papers, letters to the Editor as well as book reviews. Some of the issues are fully devoted to particular topics; we do encourage proposals for such topical issues. We accept submissions from scientists world-wide, offering high scientific and editorial standard and comprehensive treatment of the discussed topics.
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