Finding a relationship between the composition and the emulsifying character of asphaltenes through FTICR-MS

F. Rojas-Ruiz, J. Orrego-Ruiz
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引用次数: 7

Abstract

In this work, n-heptane insoluble fractions (asphaltenes) from six crude oils were analyzed by means of Fourier-transform ion cyclotron resonance mass spectrometry (FTICR MS) using both positive Atmospheric Pressure Photo Ionization (+) APPI and negative Electro- Spray Ionization (-) ESI in order to understand their water-oil emulsion stabilization capability on a molecular level basis. Through (+) APPI it was possible to obtain an overview of samples composition. By sorting as nitrogen sulfur and oxygen containing compounds, it was possible to compositionally distinguish the asphaltenes. Through (-) ESI, several differences were also observed by grouping the classes as oxygen (NxOy+NxOySz+Oy+OySz) and non oxygen containing classes (Nx+NxSz). The interactions of these two groups of compounds must be considered in order to understand the water-oil emulsion stability. It implies that the cores where nitrogen and sulfur are part may interact via π-π stacking, while the oxygen containing compounds may interact either via hydrogen bonding or via dipole forces with the aromatic aggregates (highly polarizable), forming potentially surface active aggregates. Thus, the rate between these two families of compounds may determine the surfactant character of asphaltenes at the water-oil interface. Bearing this in mind, an emulsion stability coefficient was proposed based on the relative abundances of some families of compounds detected by (-) ESI-FTICR-MS to explain the crude oils’ tendency to form emulsions.
通过FTICR-MS研究沥青质的组成与乳化特性之间的关系
本文采用傅里叶变换离子回旋共振质谱(FTICR MS),利用正大气压光电离(+)APPI和负电喷雾电离(-)ESI对6种原油中的正庚烷不溶性组分(沥青烯)进行了分析,以期在分子水平上了解它们的水-油乳液稳定能力。通过(+)APPI可以获得样品组成的概述。通过对含氮、含硫、含氧化合物的分选,可以对沥青质的组成进行区分。通过(-)ESI,将其分类为含氧类(NxOy+NxOySz+Oy+OySz)和不含氧类(Nx+NxSz),也观察到一些差异。为了了解水-油乳液的稳定性,必须考虑这两类化合物的相互作用。这表明,含氮和硫的核可能通过π-π堆积相互作用,而含氧化合物可能通过氢键或偶极力与芳香聚集体(高度极化)相互作用,形成潜在的表面活性聚集体。因此,这两个化合物族之间的速率可以决定沥青质在水-油界面的表面活性剂特性。考虑到这一点,基于(-)ESI-FTICR-MS检测到的一些化合物家族的相对丰度,提出了乳状液稳定系数来解释原油形成乳状液的倾向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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