Mineral analysis of sandstone formation using chelating agents during sandstone matrix acidizing

Q1 Earth and Planetary Sciences Petroleum Research Pub Date : 2023-09-01 DOI:10.1016/j.ptlrs.2022.10.008
Mian Umer Shafiq , Hisham Ben Mahmud , Lei Wang , Momna Khan , Ning Qi , Khizar Abid , Sophia Nawaz Gishkori
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引用次数: 1

Abstract

For many years, the most common acid practice for sandstone acidizing is based on mud acid and dolomite formations using hydrochloric acid. During various stages of sandstone acidizing, different acids react with different minerals, and interactions of minerals with acids are an origin for precipitation reactions, which can be possibly deleterious as they may reduce reservoir permeability. During this research, the effects of chelates on pore size distribution, mineralogy, and grain size distribution have been investigated. Various chelates (GLDA, HEDTA, EDTA) were examined to react with different Berea Sandstone samples at a temperature of 180 °F and under 1000 psi confining pressure. Experimental techniques and analysis like Tescan Integrated Mineral Analysis (TIMA), were implemented in this research to understand the effect of chelates on Berea Sandstone. These results are related to elemental mass, element deportment, mineral mass, mineral locking, grain size distribution, and particle size distribution of the core samples reacted with different chelating agents. It has been found that all the chelating agents are effective in increasing the porosity and dissolving the cations from the Berea sandstone core sample. HEDTA proved to be more effective in dissolving quartz as compared to other chelates. GLDA proved to be more effective in the dissolution of rutile and zircon minerals. The significance of this research is the application of environment-friendly chelating agents to sandstone formation. Moreover, the detailed mineral analysis revealed that the most number of particles were dissolved by HEDTA.

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砂岩基质酸化过程中螯合剂对砂岩地层的矿物分析
多年来,砂岩酸化最常见的酸化实践是基于使用盐酸的泥浆酸和白云石地层。在砂岩酸化的各个阶段,不同的酸与不同的矿物反应,矿物与酸的相互作用是沉淀反应的根源,沉淀反应可能是有害的,因为它们可能降低储层渗透率。在这项研究中,研究了螯合物对孔径分布、矿物学和粒度分布的影响。研究了各种螯合物(GLDA、HEDTA、EDTA)在180°F的温度和1000 psi的围压下与不同的Berea砂岩样品反应。本研究采用了Tescan综合矿物分析(TIMA)等实验技术和分析方法,以了解螯合物对Berea砂岩的影响。这些结果与与与不同螯合剂反应的岩心样品的元素质量、元素迁移、矿物质量、矿物锁定、粒度分布和粒度分布有关。研究发现,所有螯合剂都能有效地提高贝雷亚砂岩岩心样品的孔隙率和溶解阳离子。与其他螯合物相比,HEDTA被证明在溶解石英方面更有效。GLDA被证明对金红石和锆石矿物的溶解更有效。本研究的意义在于环保螯合剂在砂岩地层中的应用。此外,详细的矿物分析显示,HEDTA溶解的颗粒数量最多。
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来源期刊
Petroleum Research
Petroleum Research Earth and Planetary Sciences-Geology
CiteScore
7.10
自引率
0.00%
发文量
90
审稿时长
35 weeks
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