First Occurrence of a Shale Oil with Trimodal Carbon Chain Distribution and Paraffins Higher than Nonacontane C90H182: A Real Fail Test for Existing Chemistries and Methods

Rashod Smith, Amanda Miller, A. Mahmoudkhani, W. Samaniego, E. Granda
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Abstract

A major shale producer in North America with established oil and gas production was facing challenges with severe paraffin deposition in downhole tubing and flowlines. Since chemical recommendations based on traditional screenings failed to deliver adequate inhibition, the operator turned to a costly remediation program to maintain production. We aimed to revisit the case, do a root cause analysis, and look for a potential chemical solution for cost savings. The field deposit obtained from the producer proved to be quite complex and introduced limitations with our current internal HTGC method for carbon chain analysis. Upon analysis, components present in the sample were found to exceed the solidity limits of the carrier system, carbon disulfide (CS2) and would precipitate out of the solution and form a two-phased system. These components were believed to be higher molecular weight carbon chains (HMWC) above C70+ at a high enough concentration to exceed the solvents solubility limit. This was the first time encountering such a sample in our experience. A systematic approach was applied to isolate the insoluble HMWC and further outsourced analysis. A MALDI-TOF and High-Resolution Carbon-13 NMR was utilized to confirm the presence of C90+ chains within the deposit at a high enough concentration to have a trimodal paraffin distribution system. To our knowledge, this is the first time a trimodal system has been documented.
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首次发现碳链分布为三峰式且烷烃含量高于非含烃C90H182的页岩油:对现有化学和方法的真正失败测试
北美一家大型页岩油生产商已经建立了石油和天然气生产,但却面临着井下油管和管线严重结蜡的挑战。由于基于传统筛检的化学建议无法产生足够的抑制作用,作业者转而采用昂贵的补救方案来维持产量。我们的目标是重新审视该案例,进行根本原因分析,并寻找潜在的化学解决方案来节省成本。从生产商那里获得的现场矿床被证明非常复杂,并且引入了我们目前内部HTGC碳链分析方法的局限性。经分析,发现样品中存在的组分超过了载体体系二硫化碳(CS2)的固度极限,并将析出溶液并形成两相体系。这些组分被认为是C70+以上的高分子量碳链(HMWC),浓度高到足以超过溶剂溶解度极限。这是我们第一次遇到这样的样本。一个系统的方法被应用于分离不溶性HMWC和进一步的外包分析。利用MALDI-TOF和高分辨率碳-13核磁共振证实了沉积物中存在C90+链,其浓度足够高,可以形成三峰烷烃分布体系。据我们所知,这是首次有文献记载的三模态系统。
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