乙烯基磺化共聚物(VS-Co)抑制二氧化硅/硅酸盐垢的表征研究

R. Sazali, K. Sorbie, L. Boak, A. Z. Azman, Ismail Mohd Saaid, Aqilah Dollah, N. K. Kassim Shaari, K. Ismail
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During these tests, the silicon brine (with VS-Co) representing the inhibited ASP leachate was mixed with a magnesium brine representing the connate water to replicate reservoir conditions during ASP flooding. The samples tested in this study were non-inhibited Si/Mg mixed brine of 60 ppm Mg2+ and 940 ppm Si4+ (60Mg:940Si) as a blank, and inhibited 60Mg:940Si mixture with various VS-Co concentrations of 20 ppm, 50 ppm, and 100 ppm. The inhibition efficiency of the VS-Co was determined, followed by the characterisation study of the silica/silicate scale deposited from both test conditions.The IR spectra of all 60Mg:940Si samples show a similar peak at 1050 cm-1 to 1080 cm-1, attributed to a Si-O covalent bond and a band at 790 cm-1 to 800 cm-1 showing the presence of Si-O-Si stretching. XRD patterns produced a broad scattering peak for all samples at 2 of 24 showing that the samples are amorphous silica. 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引用次数: 0

摘要

二氧化硅/硅酸盐结垢是一个严重的问题,特别是在碱性表面活性剂聚合物(ASP)驱油过程中,化学抑制剂是防止结垢的首选方法。本文采用x射线衍射(XRD)和傅里叶变换红外光谱(FTIR)分析了抑制剂乙烯基磺化共聚物(VS-Co)对二氧化硅/硅酸盐结垢的影响。VS-Co的官能团类型为磺酸盐离子和SO3-,它们在结垢过程中相互作用。在60C和pH 8.5条件下进行了体积抑制结垢盐水试验。在这些测试中,将代表受抑制的三元复合驱渗滤液的硅盐水(含VS-Co)与代表原生水的镁盐水混合,以模拟三元复合驱过程中的储层条件。本研究测试的样品以60 ppm Mg2+和940 ppm Si4+ (60Mg:940Si)的非抑制Si/Mg混合卤水为空白,以20 ppm、50 ppm和100 ppm的不同VS-Co浓度抑制60Mg:940Si混合物。测定了VS-Co的缓蚀效率,然后对两种测试条件下沉积的二氧化硅/硅酸盐垢进行了表征研究。所有60Mg:940Si样品的红外光谱在1050 cm-1至1080 cm-1处显示出相似的峰,归因于Si-O共价键和790 cm-1至800 cm-1处显示Si-O- si拉伸的存在。所有样品的XRD谱图在2 / 24处均出现宽散射峰,表明样品为无定形二氧化硅。为了测试高Mg2+的盐水混合物,生产了900Mg:940Si,结晶二氧化硅和结晶硅酸镁的混合物。根据这些结果,可以得出结论,即使存在100 ppm的VS-Co,也会形成水垢。未来需要进一步研究如何有效地减缓水垢的形成。通过研究可知,即使在最高浓度(100 ppm)下,单独添加VS-Co也不能显著抑制二氧化硅/硅酸盐水垢的形成。然而,有VS-Co的存在会导致红外光谱频率的改变,这需要进一步的研究来评估如何最好地开发VS-Co产品的抑制特性。纳米颗粒的应用及其成功案例激发了作者的兴趣,寻找一种有效的控制二氧化硅/硅酸盐结垢的方法,其中用纳米颗粒改性潜在阻垢剂(SI)可能能够提高对硅酸盐/硅酸盐结垢的抑制效率。VS-Co在结垢盐水中的存在仅轻微抑制Mg2+离子(最初来自原生水)的反应。值得进一步研究的是,这家VS-Co是如何实现这一目标的。因此,可以通过添加其他官能团来改变负责这一点的官能团,以提供防止这种二氧化硅/硅酸盐结垢的协同效应;或者用纳米颗粒修饰VS-Co以提高其吸附/解吸能力。利用各种光谱分析来分析化学抑制剂的抑制机理的新技术是有前途的,其中光谱的变化可能提供化学抑制剂抑制效率的证据。
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The characterization study of inhibited silica/silicate scale using vinyl sulfonated copolymer (VS-Co)
Silica/silicate scale is a significant problem, especially in oilfield production during Alkaline Surfactant Polymer (ASP) flooding, where chemical inhibitors are the preferred method to prevent them. In this study, the effect of inhibitor vinyl sulfonated copolymer (VS-Co) on silica/silicate scale formation was analysed using X-Ray Diffraction (XRD) and Fourier-transform infrared spectroscopy (FTIR).The functional group type of VS-Co are sulfonate ions, SO3-, and these interact in the scaling process. Bulk-inhibited scaling brine tests were conducted at 60C and pH 8.5. During these tests, the silicon brine (with VS-Co) representing the inhibited ASP leachate was mixed with a magnesium brine representing the connate water to replicate reservoir conditions during ASP flooding. The samples tested in this study were non-inhibited Si/Mg mixed brine of 60 ppm Mg2+ and 940 ppm Si4+ (60Mg:940Si) as a blank, and inhibited 60Mg:940Si mixture with various VS-Co concentrations of 20 ppm, 50 ppm, and 100 ppm. The inhibition efficiency of the VS-Co was determined, followed by the characterisation study of the silica/silicate scale deposited from both test conditions.The IR spectra of all 60Mg:940Si samples show a similar peak at 1050 cm-1 to 1080 cm-1, attributed to a Si-O covalent bond and a band at 790 cm-1 to 800 cm-1 showing the presence of Si-O-Si stretching. XRD patterns produced a broad scattering peak for all samples at 2 of 24 showing that the samples are amorphous silica. For tests of high Mg2+ in the brine mix, 900Mg:940Si, a mix of crystalline silica and crystalline magnesium silicate was produced. Based on these results, it can be concluded that the scale formed even with 100 ppm of VS-Co present. Further studies are required to address how to mitigate scale formation effectively in the future.Based on the research conducted, we can conclude that the VS-Co alone could not significantly inhibit the formation of silica/silicate scale even at the highest concentration (100 ppm) of VS-Co. However, having VS-Co present caused an alteration in IR spectra frequency which requires further investigation to assess how best to develop the inhibiting properties of the VS-Co product. The application of nanoparticles and their successful stories spark the interest of authors in searching for an efficient method of managing the silica/silicate scale where the modification of potential scale inhibitor (SI) with nanoparticles may be able to improve the inhibition efficiency towards the silicate/silicate scale.The presence of VS-Co in the scaling brine only slightly inhibits the Mg2+ ion (initially comes from connate water) from reacting. It is worth further investigation on how this VS-Co can make it happen. Hence, the functional groups responsible for this may be altered by adding other functional groups to provide a synergistic effect in preventing this silica/silicate scale; or by modifying the VS-Co with nanoparticles to improve their adsorption/desorption capacity.The newly developed technique in analysing the inhibition mechanism of a chemical inhibitor using various spectroscopic analysis is promising where an alteration in the spectra may provide proof of the chemicals inhibition efficiency.
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来源期刊
Journal of Achievements in Materials and Manufacturing Engineering
Journal of Achievements in Materials and Manufacturing Engineering Engineering-Industrial and Manufacturing Engineering
CiteScore
2.10
自引率
0.00%
发文量
15
期刊介绍: The Journal of Achievements in Materials and Manufacturing Engineering has been published by the Association for Computational Materials Science and Surface Engineering in collaboration with the World Academy of Materials and Manufacturing Engineering WAMME and the Section Metallic Materials of the Committee of Materials Science of the Polish Academy of Sciences as a monthly. It has 12 points which was received during the evaluation by the Ministry of Science and Higher Education journals and ICV 2017:100 on the ICI Journals Master list announced by the Index Copernicus. It is a continuation of "Proceedings on Achievements in Mechanical and Materials Engineering" published in 1992-2005. Scope: Materials[...] Properties[...] Methodology of Research[...] Analysis and Modelling[...] Manufacturing and Processingv Biomedical and Dental Engineering and Materials[...] Cleaner Production[...] Industrial Mangement and Organisation [...] Education and Research Trends[...]
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