Abstract
Asphaltenes constitute the heavy petroleum fraction responsible for deposition events that may lead to reduced oil production, therefore of great interest for flow assurance. These molecules self-assemble in solutions leading to formation of aggregates that eventually grow towards precipitation and blockages in reservoirs and pipelines. Based on the Yen-Mullins aggregation model, two complementary scenarios are involved in asphaltenes phase behavior: one called thermodynamic, in which interacting molecules and other species can be assumed to be in equilibrium, and a second one, involving interacting colloidal particles, both being described by different theoretical frameworks. For the first, molecular interactions can explain the experimental observations or theoretical models. For the second stage, colloidal forces such as those described by Derjaguin, Landau, Verwey and Overbeek (DLVO) theory, steric particle stabilization and diffusion or reaction limited aggregation processes might control the process. Our evaluation is that this second approach is underrepresented in the current literature. For this reason, this review focuses on describing evidences for the presence of colloidal particles in crude oils obtained with different experimental techniques, drawing attention to this important attribute and we raise a few questions that we believe must be addressed in order to better understand the contributions from colloidal aspects.
Highlights
Introduction toAsphaltenes: from Solubility Class to Molecular Details and Their Amphiphilic NatureCrude oil has its composition based on paraffinic and aromatic molecules with different contents of sulfur, oxygen and nitrogen
Systematic small angle X-ray scattering (SAXS) investigation of crude oils in the presence of solvents, flocculants and additives was performed and the results indicated that asphaltenes can be described by the Beaucage fractal aggregation model[59] with two levels of association
It is possible to distinguish further that larger objects are formed by the aggregation of smaller units, whose size is (4 ± 1) nm, in height,[61] in agreement with the values calculated by fitting the scattering curves obtained by SAXS.[45]
Summary
Because of their characteristics of aggregating and clogging pipes, asphaltenes are metaphorically regarded as “petroleum cholesterol”.19 In this sense, aggregation can lead to deposition during oil extraction, which can damage equipment as well as clog installations and pores of the. Asphaltenes precipitation is a barrier in this scenario and finding ways to avoid and/or minimize it becomes mandatory in order to reduce the risk of abandonment of wells and minimize cleanup costs that can reach up to several million US dollars per annum To illustrate this situation, in the Gulf of Mexico, the average expenses related to asphaltenes deposition are about seventy million US dollars per well when it is necessary to stop production. If the well is lost, the execution of a lateral path can generate a cost of one hundred and fifty million US dollars.[10] Another problem concerning asphaltenes is their characteristic of stabilizing the water-oil interface, especially near the point of asphaltenes precipitation.[17] Controlling the stability of these emulsions is crucial especially in the oil transport and production stages, and is one of the greatest challenges in this segment. Based on the selection of inhibition considering steric stabilization, as early as 1994 Chang and Fogler[15] indicated that the length and shape of the alkyl chain is very important for the additive efficiency, being similar steric interference for the aggregate growth
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