石油工业硫化氢净化过程的优化算法

F. Souza, F. Pessoa, T. Ferreira, E. Calixto, A. L. C. Bonfim
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引用次数: 1

摘要

硫化氢(H2S)是一种有毒的腐蚀性气体,通常存在于油藏中,其起源可能与细菌的代谢或热化学反应有关。这种已经存在于大气中的气体可以转化为二氧化硫(SO2),从而导致温室效应。在有水的情况下,它会形成硫酸并沉淀成酸雨。由于其物理化学性质,H2S倾向于在通风不足的空间中积聚;在操作过程中是一个严重的状况。即使在低浓度下,它也会造成健康问题,而在接近700 ppm的浓度下,它是致命的。然而,腐蚀电位也必须考虑,主要是在生产过程中,因为管道可能受到泄漏的影响。因此,在采油过程中,仍应在靠近油藏的地方进行有效的处理。这些问题必须通过从油流中有效地减少或去除这种气体来克服。在石油工业中使用H2S清除剂是去除或降低气体浓度的有益做法。使用基于三嗪的硫化氢清除剂,因为它们是液体物质,可以在气体系统中使用,能够直接注入到流中,具有很大的混合能力。三嗪与H2S反应生成可溶性和惰性产物,这些产物在生产系统中被收集。为了监测H2S浓度,使用SIMSeq 1.0软件根据油井的实际数据模拟操作条件。利用该软件进行了多次模拟,确定了最佳注入量。体积设置完成后,对清除剂沿井串的不同注入深度进行敏感性分析。结果表明,三嗪的流速与注射深度之间存在最佳的相关性。通过比较扫砂剂沿注入点注入井筒的深度来完成。利用这些结果在STATISTICA软件中建立了一个预测模型,该模型包含注入量和封存效率之间的分布,为油田和油井的经济可行性研究提供支持。本研究的结果使我们认为,考虑到所进行的模拟和统计分析,对于所研究的井,使H2S浓度低于5 ppm的最佳注入深度和流速应为9500 m,流速为46 L/h。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization Algorithm of Hydrogen Sulfide Scavenging Process in Oil Production Industry
Hydrogen sulfide (H2S), usually present in oil reservoirs, is a toxic and corrosive gas that may have its origin associated with bacteria's metabolism or thermochemical reactions. This gas which is already present in the atmosphere can be converted into sulfur dioxide (SO2), contributing to the greenhouse effect. In presence of water it forms sulfuric acid and precipitates as acid rain. Given its physicochemical properties, H2S tends to accumulate in spaces with little ventilation; being a serious condition in operational processes. Even in low concentrations it causes health problems, and itis lethal in concentrations close to 700 ppm. Nevertheless, the corrosive potential must also be considered, mainly during production due to the piping can be affected with leaks. Therefore, the treatment should still be effective close to the reservoir during the oil production process. These problems must be overcome by the effective reduction or removal of this gas from the oil stream. The use of H2S scavengers in oil industry is a useful practice in order to remove or reduce gas concentration. Hydrogen sulfide scavengers based on triazines are used, since they are liquid substances that can be used in gas systems, being able to be injected directly into the stream with great mixing capacity. The triazine reacts with H2S producing soluble and inert products, which are collected during production system. In order to monitoring H2S concentration, a software SIMSeq 1.0 was used to simulate operational conditions based on real data from oil wells. Using this software, several simulations were carried out and the optimum injection volume was determined. After the volume set, sensitivities analysis was carried out for different injection depths of scavengers along the well string. The results allowed to draw the best correlation between triazine flowrate and its injection depth. It was done by comparing the scavenger injection depth along the points of injection into wellbore. These results were used to build a predictive model in STATISTICA software with a distribution between volume of injection and sequestration efficiency to support economic feasibility studies for fields and oil wells. Results from this study lead us to believe that for the well studied, considering simulations e statistical analysis performed, the optimum injection depth and flowrate to have H2S concentrations below 5 ppm should be 9500 m for depth and 46 L/h flow rate.
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