Effects of Different Concentrations of Weak Acid Fracturing Fluid on the Microstructure of Coal

IF 4.8 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Gan Rui, Zuo Shaojie, Si Junting, Liu Chengwei, Tian Feng, Jiang Zhizhong, Wang Changwei, Peng Shouqing, Xu Zhiyuan
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Abstract

As a crucial factor that influences the hydraulic fracturing effectiveness of coal seams, fracturing fluids have garnered increasing attention. Among them, acid fracturing fluids have demonstrated positive impact on the pore transformation of coal, but high-strength acid fracturing fluids can cause corrosion damage to mechanical equipment. In this study, we employed acetic acid to formulate four types of weak acid fracturing fluids with varying concentrations and conducted soaking experiments. We analyzed the changes in the physical and chemical structure of coal samples before and after treatment using Fourier-transform infrared spectroscopy and X-ray diffraction analysis. The changes in the pore structure of coal samples before and after treatment were characterized by nitrogen adsorption and scanning electron microscopy. Our findings indicate the following: (1) The effects of different concentrations of acetic acid fracturing fluid on functional groups and microcrystalline structure vary. The 5% concentration fracturing fluid had the most significant impact on the organic structure of coal samples, with decreases in the area of hydroxyl structure, aliphatic structure, and oxygen-containing structure of 2.97%, 1.37%, and 0.68%, respectively. The 6% concentration fracturing fluid had the most significant impact on crystal structure, leading to a high degree of recrystallization and a fragile crystal network structure. (2) Fracturing fluids with concentrations below 7% can increase the number of mesopores and simplify the pore structure, while concentrations above 7% can lead to an increase in micropores and a more complex pore structure. (3) After the action of fracturing fluid, carbonate minerals are dissolved, and the pores of coal samples increase. However, excessively high concentrations of acetic acid fracturing fluid can facilitate shedding of mineral particles and block some pore channels, worsening the connectivity between pores. (4) The octadecylamine acetate formed by the combination of octadecylamine and acetic acid develops as a partial film on the surface of a coal body, reducing the roughness of the fracture surface and facilitating the flow of the fracturing fluid. Our findings provide theoretical support for the preparation and selection of weak acid fracturing fluids.

Abstract Image

不同浓度的弱酸性压裂液对煤炭微观结构的影响
作为影响煤层水力压裂效果的关键因素,压裂液越来越受到人们的关注。其中,酸性压裂液对煤的孔隙转化有积极影响,但高强度酸性压裂液会对机械设备造成腐蚀破坏。本研究采用醋酸配制了四种不同浓度的弱酸性压裂液,并进行了浸泡实验。我们利用傅立叶变换红外光谱和 X 射线衍射分析法分析了煤样在处理前后物理和化学结构的变化。通过氮吸附和扫描电子显微镜分析了处理前后煤样孔隙结构的变化。我们的研究结果表明了以下几点:(1)不同浓度的醋酸压裂液对官能团和微晶结构的影响不同。5%浓度的压裂液对煤样有机结构的影响最大,羟基结构、脂肪族结构和含氧结构的面积分别减少了2.97%、1.37%和0.68%。浓度为 6% 的压裂液对晶体结构的影响最大,导致重结晶程度高,晶体网络结构脆弱。(2)浓度低于 7% 的压裂液可增加中孔数量,简化孔隙结构,而浓度高于 7% 则会导致微孔增加,孔隙结构更加复杂。(3)压裂液作用后,碳酸盐矿物被溶解,煤样孔隙增加。但是,过高浓度的醋酸压裂液会促进矿物颗粒脱落,堵塞部分孔隙通道,使孔隙之间的连通性变差。(4) 十八烷基胺与醋酸结合形成的醋酸十八烷基胺在煤体表面形成部分薄膜,降低了压裂表面的粗糙度,有利于压裂液的流动。我们的研究结果为弱酸性压裂液的制备和选择提供了理论支持。
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来源期刊
Natural Resources Research
Natural Resources Research Environmental Science-General Environmental Science
CiteScore
11.90
自引率
11.10%
发文量
151
期刊介绍: This journal publishes quantitative studies of natural (mainly but not limited to mineral) resources exploration, evaluation and exploitation, including environmental and risk-related aspects. Typical articles use geoscientific data or analyses to assess, test, or compare resource-related aspects. NRR covers a wide variety of resources including minerals, coal, hydrocarbon, geothermal, water, and vegetation. Case studies are welcome.
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