油田缓结垢修复中油田沉积物溶蚀研究

Chao Yan, Wei Wang, Wei Wei
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摘要

在近井油藏/井下和生产系统中,结垢会导致生产损失、系统完整性和可靠性下降,以及设备结垢。油田沉积物的缓解和补救可能是困难和昂贵的。更好地了解影响水垢溶解的关键因素,如温度和pH值,将有利于减缓水垢的实施。例如,大多数对硅酸盐溶解的研究和调查都是基于低温经验(例如,100°C和pH从6 - 8)。并在环境条件下进行了现场样品的溶出试验。试验中使用了各种溶剂,包括二甲苯、盐酸和乙酸。综上所述,降低温度对硅酸镁的溶解影响有限,但对与现场样品共存的方解石和硬石膏的溶解有促进作用。降低pH有利于硅酸镁和方解石的溶解。适当降低pH值可显著增加硅酸盐的溶解总量。由于在溶解过程中形成羟基离子,溶液pH值急剧增加。根据观察和研究结果,提出了金属硅酸盐水垢溶解反应。溶解和悬浮在溶液中至少15分钟后产生更多的细颗粒,这使得通过适当的搅拌可以减少固体。油田沉积物可能包含多种成分,在选择缓解/补救方法时应利用适当的尺度样品表征。通过现场适用的处理方法,提供了油田高温下结垢(含硅酸盐结垢)的新信息。研究结果有助于更好地了解不同ph值和温度下的硅酸盐溶解,以及成功缓解和修复油田结垢沉积物所需的条件
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dissolution Study of Field Deposits for Oilfield Scale Mitigation and Remediation
Formation of scales in near-wellbore reservoir/downhole and production systems can lead to production loss, system integrity and reliability degradation, and fouling of device and equipment. The mitigation and remediation of oilfield depositions can be difficult and costly. Better understanding of the key factors impacting scale dissolution, such as temperature and pH will benefit scale mitigation practices. Most of the research and investigation of silicate dissolution for example are based on low temperature experiences (e.g., <100 °C). Strong acids such as concentrated HCl, HF and aqua regia may not be applicable for field application. In this study, field depositions with various scale types such as silicates, carbonate, sulfides are characterized and used for studying effects of pH, temperature and solvent on their dissolution. Experiments with oilfield scale deposit samples including silicates were conducted with high temperature thermal aging cells at temperature range >100 °C and pH from 6 – 8. Dissolution test with field scale samples were also conducted under ambient conditions. Various solvents including xylene, HCl and acetic acid were used in the test. To summarize the results, decreasing temperature has limited effect on dissolution of magnesium silicates, but improves dissolution of calcite and anhydrite which coexist with the field sample. Decreasing pH improves the dissolution of magnesium silicate and calcite. Total amount of dissolved silicates can increase significantly due to appropriate pH decrease. Solution pH is increased dramatically due to the formation of hydroxyl ions during the dissolution process. The reaction for dissolution of metal silicate scale is proposed based on observation and results in the study. More fine particles are produced after dissolution and suspended in solution for at least 15 minutes, which makes solid mitigation possible by applying proper agitation. Oilfield deposits can include a variety of components, and appropriate scale sample characterization should be utilized for selection of mitigation/remediation approaches. This paper provides novel information of oilfield scale dissolution (including silicate scale) at high temperature by using field applicable treatment approaches. Results lead to better understanding of silicate dissolution at various pHs and temperatures, and required conditions for successful mitigation and remediation of oilfield scale deposits
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