一种在高温-高温条件下评价新型硫溶产物效率的实验方法

I. Maffeis, A. D. de Angelis, Riccardo Guernelli, E. Croce, Luigi Romano
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引用次数: 2

摘要

在含硫气藏生产过程中,单质硫会在生产油管中析出,导致油井堵塞和停产。在油管中注入专门用于溶解硫的产品可以有效地解决堵塞和恢复生产的问题。传统上,有机溶剂(如甲苯)用于固体硫溶解。在目前的工作中,对一种特殊的创新液体产品进行了实验研究,该产品被设计为用于井筒注入或近井筒应用的活性相。在高温-高温条件下对所考虑的产物的行为进行了分析。为此,采用了PVT实验室设备,能够重现单质硫塞在井中形成的条件。为了保证所研究的液体物质和固体硫的正确管理,必须对实验装置进行重要的初步优化。将主要结果与其他类型的分析相结合,可以描述行为的完整表示:液相显微镜分析和相互作用前后固体硫的高分辨率断层扫描被采用。实验表征的一个关键点是再现重要的相关现象。为了再现井中固体硫析出过程中所期望的真实晶体形态,需要进行初步的努力。液相产物的溶解效率是通过观察其与硫的物理相互作用来评价的。特别注意在考虑的压力和温度条件下正确处理所使用的物质。对实验室中使用的优化设备进行了详细的描述。在不同的温度和压力条件下进行了溶解试验,目的是观察溶解效率与热力学参数的关系。在细胞内相互作用前后,对液体产物和固体塞进行了视觉定性分析。这可以加深对硫溶解动力学的理解,硫溶解不仅发生在桥塞的顶部,还发生在桥塞内部的优先路径(裂缝)中。从电池取样后,分散在液体产品中的硫晶体的存在在测试结束时也很明显。所研究的新型溶硫液体活性相是由于固体单质硫沉淀导致堵漏的补注作业的候选物。这里提出的分析允许表征该产品的溶解电位。设计了一个优化的工作流程,包括不同类型的实验学科。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Methods for the Evaluation of the Efficiency of an Innovative Sulfur-Dissolving Product in HP-HT Conditions
During production from sour gas reservoirs, precipitation of elemental sulfur can take place in production tubing, resulting in plugging of the well and stop of production. Injection in tubing of products devoted to dissolving sulfur can be an efficient solution for plug removal and production restoring. Traditionally, organic solvents (like toluene) are employed for solid sulfur dissolution. In the present work, experimental investigations have been performed on a particular innovative liquid product designed as active phase for wellbore injection or near wellbore applications. The analyses about the behavior of the considered product were conducted at HP-HT conditions. For this purpose, PVT laboratory equipment was employed, being able to reproduce the conditions of interest for the formation of elemental sulfur plug in well. An important preliminary optimization phase on the experimental setup was necessary to assure the correct management of studied liquid substance and solid sulfur. Integration of main outcomes with other kind of analyses allowed to depict a complete representation of the behavior: microscopy analysis of the liquid phase and high-resolution tomography of solid sulfur before and after the interaction were employed. A key point of the experimental characterization is the reproduction of significant involved phenomena. A preliminary effort was necessary for reproducing the realistic crystal form expected during the precipitation of solid sulfur in well. The dissolution efficiency of the liquid product is evaluated by observing its physical interaction with sulfur in a HP-HT cell. Particular attention was paid to correctly handling employed substances at the considered pressure and temperature conditions. A detailed description of the optimized equipment used in laboratory is provided. Several dissolution tests have been conducted at different temperature and pressure conditions, aiming to observe the dependence of the dissolution efficiency on the thermodynamic parameters. A visual qualitative analysis was performed on both the liquid product and the solid plug, before and after the interaction in cell. This allowed to deepen the comprehension of the dynamics of sulfur dissolution, which takes place not only from the top face of the plug, but also from preferential paths (fractures) present inside the plug itself. The presence of sulfur crystals dispersed in the liquid product after sampling from the cell is also evident at the end of the tests. The studied novel sulfur-dissolving liquid active phase is a candidate for remedial job injection at well in case of plugging due to solid elemental sulfur precipitation. The analyses here presented allowed to characterize the dissolution potential of this product. An optimized workflow was designed, including different kind of experimental disciplines.
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