通过界面张力测量研究水对沥青质表面行为的影响

R. Moghadasi, J. Moghadasi, S. Kord
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引用次数: 4

摘要

作为一种物理化学性质,沥青质被认为是原油中最具表面活性的化合物之一。由于这种性质,它们的行为很可能受到接触面(界面)上流体-流体相互作用的影响。在大多数情况下,水都可能与原油接触,并与原油共同开采。考虑到沥青质分子是类似于水分子的极性化合物,沥青质在被吸收到界面时受到水的界面影响。当使用去离子水且死原油不含其他表面活性杂质(如金属化合物)时,可以通过界面张力(IFT)变化来研究这种影响。在本研究中,在2000至0 psia的压力范围内,在三种不同的油样和蒸馏水之间进行了广泛的IFT实验。通过从0到2000 psia的反向压力路径,研究了沥青质对界面吸光度的可逆性。结果表明:油水间IFT随压力变化,但存在上下振荡;IFT趋势的这种振荡行为与沥青质的表面活性有关,因为所使用的油样不含其他杂质。随着树脂与沥青质比例的增加,振荡减少,表明树脂稳定的沥青质具有不可吸收性。其中一个样品的微观表面实验表明,在一定的浓度和粒度下,在界面上瞬间形成一层被吸收的沥青质刚性膜。这种膜的高刚性产生了一种假设,即水可能通过强氢键(h -键)影响沥青质的表面行为。反向压力路径表明,沥青质的表面吸收部分不可逆。实验进行了三次,每个数据集与每个样本的平均三组一起呈现。
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An Experimental Investigation of Water Effects on Asphaltene Surface Behavior through Interfacial Tension Measurements
As a physiochemical property, asphaltenes are known to be one the most surface active compounds in crude oil. Due to such property, their behavior is most probably influenced by fluid-fluid interactions at the contact surface (interface). Potentially and naturally, in most cases, water is in contact with crude oil and is co-produced with it as well. Considering that asphaltene molecules are polar compounds similar to water molecules, asphaltenes are interfacially affected by water while they are absorbed to the interface. Such effects could be investigated by interfacial tension (IFT) changes when de-ionized water is used and dead-crude oil does not contain other surface active impurities like metallic compounds. In this study, extensive IFT experiments were conducted between three different oil samples and distilled water in a wide range of pressure from 2000 to 0 psia. The reversibility of asphaltene absorbance to the interface was also investigated by reversing the pressure path from 0 to 2000 psia. The results show that oil/water IFT changes with pressure, but upward/downward oscillations were detected. Such an oscillating behavior of IFT trends was related to asphaltenes surface activity as the oil samples used did not contain other impurities. Oscillations were reduced as resin to asphaltene ratio was increased, suggesting the non-absorbable behavior of the asphaltenes stabilized by resins. A microscopic surface experiment on one of the samples showed that at a certain concentration and particle size, a rigid film of absorbed asphaltenes was created at the interface instantaneously. The high rigidity of such a film gives rise to a hypothesis, which states that water affects asphaltene surface behavior possibly through strong hydrogen bonding (H-bond). Reversing the pressure path revealed that asphaltene surface absorbance is partially irreversible. The experiments were conducted three times, and each data set was presented along with an average of three sets for each sample.
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