Fluid Substitution Analysis Using Gassmann’s Equation Modification on Carbonate Environment

Pakistan Journal of Scientific & Industrial Research Series A: Physical Sciences Pub Date : 2021-12-30 DOI:10.57041/pjosr.v1i2.6

Amanda Safira, Dina Yulianita, W. Utama

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Abstract

Gassmann’s equation can be used to determine the velocity of compressional waves that pass through rocks with various pore fluid contents, using fluid substitution concept, but is generally applied to certain conditions only (physical rock properties). Carbonate rock has properties in contrary of Gassmann’s assumption; is a heterogenic, anisotropic rock and does not have a well-interconnected pores. In this research, secondary data from laboratory measurements are used, consisting of carbonate rocks (limestone and dolomite) to test modified Gassmann’s equation on carbonate rocks. Two approaches of Gassmann’s equation are used by using k-dry and k-1 components, which are the value of compressional modulus bulk of saturated rocks. The result of both approaches shows that the usage of k-1 component is more optimal to be applied to carbonate rocks because it does not use k-dry component, which should only be used on field measurements, as there is a difference in the environment condition (air, temperature, and pressure) on reservoir and laboratory.

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基于Gassmann方程修正的碳酸盐岩环境流体替代分析

利用流体替代概念，Gassmann方程可用于确定穿过孔隙流体含量不同的岩石的纵波速度，但通常仅适用于某些条件(岩石物理性质)。碳酸盐岩具有与Gassmann假设相反的性质;是一种非均质、各向异性的岩石，没有连通良好的孔隙。在本研究中，使用了由碳酸盐岩(石灰石和白云岩)组成的实验室测量的二次数据来测试碳酸盐岩上修正的Gassmann方程。采用饱和岩石压缩体积模量的k-dry分量和k-1分量，采用了两种Gassmann方程方法。两种方法的结果都表明，由于储层和实验室的环境条件(空气、温度和压力)存在差异，因此k-1分量的使用更适合于碳酸盐岩，因为它不使用只能用于现场测量的k-dry分量。

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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Pakistan Journal of Scientific & Industrial Research Series A: Physical Sciences

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