Supramolecular Assembly Model for Aggregation of Petroleum Asphaltenes

Gray, Murray R.; Tykwinski, Rik R.; Stryker, Jeffrey M.; Tan, Xiaoli

doi:10.1021/ef200654p

Cited by 436 publications

(563 citation statements)

References 77 publications

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“…Self-aggregation, whether at interfaces or in solution, is understood to result from - stacking of the asphaltene polycyclic aromatic regions [9], although electrostatic and Hbonding contributions involving water have also been identified in model asphaltene systems [10][11][12]. This latter view supports other results from simulation and experiment, that low water concentrations promote asphaltene nanoaggregation in toluene solution [13], which is suggested to involve intermolecular H-bonded water bridges and asphaltene heteroatoms, e.g.…”

Section: Introductionsupporting

confidence: 68%

Asphaltene adsorption on quartz sand in the presence of pre-adsorbed water

Gonzalez

Taylor

2016

Journal of Colloid and Interface Science

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Section: Introductionsupporting

confidence: 68%

Asphaltene adsorption on quartz sand in the presence of pre-adsorbed water

Gonzalez

Taylor

2016

Journal of Colloid and Interface Science

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“…However, the traditional methods used to isolate asphaltenes by adding 40 volumes in excess of low boiling point paraffin hydrocarbons can produce a fraction which is contaminated with a significant amount of waxes (Chouparova and Philp 1998;Thanh et al 1999;Liao et al 2006;Acevedo et al 2009;Coto et al 2011). The presence of paraffin hydrocarbons in asphaltenes can be explained by their coprecipitation as a result of low solubility in low molecular weight n-alkanes (Thanh et al 1999;Coto et al 2011), by interaction between the alkyl lateral chains (C 7 -C 10 ) of asphaltenes with high molecular weight n-alkanes (Garcia and Carbognani 2001;Stachowiak et al 2005;Ganeeva et al 2014), and by their adsorption and/or occlusion inside asphaltene aggregates (Liao et al 2005(Liao et al , 2006Acevedo et al 2009;Gray et al 2011). Now, it is well-known that the asphaltenes exist as three-dimensional aggregates due to the strong intermolecular forces such as hydrogen bonding and p-bonding (Murgich 2002) and even at very low concentration as 50-150 mg/L in a good solvent such as toluene (Mullins et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Waxes in asphaltenes of crude oils and wax deposits

2016

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Composition and molecular mass distribution of n-alkanes in asphaltenes of crude oils of different ages and in wax deposits formed in the borehole equipment were studied. In asphaltenes, n-alkanes from C 12 to C 60 were detected. The high molecular weight paraffins in asphaltenes would form a crystalline phase with a melting point of 80-90°C. The peculiarities of the redistribution of high molecular paraffin hydrocarbons between oil and the corresponding wax deposit were detected. In the oils, the high molecular weight paraffinic hydrocarbons C 50 -C 60 were found, which were not practically detected in the corresponding wax deposits.

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“…The polydisperse model, although more accurate in describing the real nature of the system, implies more compute time and propose a technical difficulty in determining the actual forces that intervene in asphaltene aggregation. Recently developed theories are inclined to consider a supramolecular model for asphaltene aggregation that even include the content of heavy metals in the molecule structure, a feature often neglected due to the low fraction of these elements in the structural analysis of asphaltenes [13]. This level of detail allows depicting the association behavior of asphaltenes observed experimentally.…”

Section: Modelmentioning

confidence: 99%

Aggregation study of asphaltenes from colombian Castilla crude oil using molecular simulation

León-Barreneche

Hoyos

Cañas-Marín

2015

Rev. Fac. Ing. Antioquia

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A molecular simulation model to study the mechanism for asphaltene aggregation is presented. Four species were selected, obtained from structural analysis of asphaltenes from the oil extracted from Castilla oil field, in Colombia. Energetic contributions to the aggregation process for each species were studied, and the solubility parameter was evaluated. Finally, the aggregation process between different species was studied in order to determine the tendency of the molecules towards self-association. Results show that for all species, aggregation state is energetically favorable; also, both Van der Waals interactions and electrostatic forces contribute equally to the aggregation process. It was also found that the molecular structure of the substances has a big influence on the manner in which asphaltenes aggregate. For continental structures, long ramifications cause a physical obstacle for aggregation. On the other hand, the molecular flexibility associated with archipelago structures enables the aggregation with other species, but somehow hinders the process of self-association. The solubility parameter for all four substances was within the range established by literature. RESUMEN:Se presenta un modelo de simulación molecular para estudiar el mecanismo de agregación de asfaltenos. Se seleccionaron cuatro especies, obtenidas a partir de análisis estructurales del petróleo extraído del campo Castilla, en Colombia. Se estudiaron las contribuciones energéticas al proceso de agregación y se calculó el parámetro de solubilidad para cada especie. Finalmente, se estudió el proceso de agregación entre las diferentes especies con el fin de determinar la tendencia de las moléculas hacia la autoasociación. Los resultados muestran que para todas las especies, el estado de agregación es energéticamente favorable, y que tanto las fuerzas de Van der Waals como las fuerzas electrostáticas contribuyen en igual magnitud al proceso de agregación. Se encontró también que la estructura molecular de las moléculas tiene una gran influencia en la manera cómo se agregan los asfaltenos. Para las estructuras continentales, las ramificaciones largas ocasionan un impedimento físico para la agregación. Por otro lado, la flexibilidad asociada a las moléculas tipo archipiélago favorece la agregación con otras especies, pero de alguna manera entorpece la autoasociación. El parámetro de solubilidad para todas las especies se encontró dentro del rango establecido por la literatura.

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Supramolecular Assembly Model for Aggregation of Petroleum Asphaltenes

Cited by 436 publications

References 77 publications

Asphaltene adsorption on quartz sand in the presence of pre-adsorbed water

Asphaltene adsorption on quartz sand in the presence of pre-adsorbed water

Waxes in asphaltenes of crude oils and wax deposits

Aggregation study of asphaltenes from colombian Castilla crude oil using molecular simulation

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