Asphaltene Aggregation in Aqueous Solution Using Different Water Models: A Classical Molecular Dynamics Study

Vatti, Anoop Kishore; Caratsch, Andrina; Sarkar, Shuvadeep; Kundarapu, Laxman Kumar; Gadag, Shivaprasad; Nayak, Usha Y.; Dey, Poulumi

doi:10.1021/acsomega.0c01154

Cited by 18 publications

(13 citation statements)

References 42 publications

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“…The extended chain length for asphaltene is found to be 24.5 Å. The aliphatic sidechains can change the persistence length in aqueous solution [40] and in organic solvents. The stiffer aliphatic side chains are found on shorter length scales and the longer length scale side chains bend to participate in the aggregation process.…”

Section: Key Stepsmentioning

confidence: 93%

“…The distance between one end of the aliphatic side chain to the other end is termed as the end-to-end distance. This distance is crucial in understanding the aggregation behaviour of asphaltenes in aqueous solution as established by one of our previous works [40]. In this study, we probed the end-to-end distance to understand the aggregation behavior of asphaltenes in hexane and toluene mixture considering the semi-flexible side chains [41] within the worm-like chain model [42].…”

Section: End-to-end Distancementioning

confidence: 93%

“…The end-to-end distance of the asphaltene molecule averaged over all asphaltene molecules is evaluated over the entire MD production run using the following Eq. 2 [41,40]:…”

Section: End-to-end Distancementioning

confidence: 99%

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Combined experimental and molecular dynamics investigation of 1D rod-like asphaltene aggregation in toluene-hexane mixture

Kundarapu

Choudhury

Acharya

et al. 2021

Journal of Molecular Liquids

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Section: Key Stepsmentioning

confidence: 93%

Section: End-to-end Distancementioning

confidence: 93%

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Combined experimental and molecular dynamics investigation of 1D rod-like asphaltene aggregation in toluene-hexane mixture

Kundarapu

Choudhury

Acharya

et al. 2021

Journal of Molecular Liquids

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“…In the heavy crude oil, the asphaltene component holds the major fraction . Asphaltenes form aggregates in n -alkanes, water, and water–oil emulsion and are responsible for the high viscosity of crude oil. , The chemical treatment of asphaltenes is done using cyclic aromatic compounds, such as benzene, toluene, xylene, and pyridine, in which asphaltene is soluble. These solvents are, however, hazardous and volatile.…”

Section: Introductionmentioning

confidence: 99%

Role of Ionic Liquid in Asphaltene Dissolution: A Combined Experimental and Molecular Dynamics Study

et al. 2022

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The role of ionic liquid in asphaltene dissolution is studied using experimental characterization techniques, such as optical microscopic imaging analysis, 13C nuclear magnetic resonance (NMR), and Fourier transform infrared (FTIR) spectroscopy, along with molecular insights achieved using classical molecular dynamics (MD) simulations. The dissolution behavior of the asphaltenes in 1-butyl-3-methylimidazolium hexafluorophosphate ([BMIM][PF6]) ionic liquid along with organic solvents, i.e., toluene and hexane, is investigated using optical images. The behavior of asphaltene aggregates in the solvent plus ionic liquid mixture is probed using FTIR and 13C NMR spectroscopic techniques. The structural and dynamical properties of the asphaltene aggregates mainly end-to-end distance, the diffusion coefficient of the asphaltene molecules, and the trajectory density contour of the asphaltene in the solvent plus ionic liquid mixture are probed using MD simulations. It is concluded from our combined experimental–MD study that the ionic liquid plays a key role in asphaltene separation from organic solvents under study.

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“…In their study, four different solvent mixtures were considered, their results showed that pure CO 2 enhances hydrogen bond formation and dipolar interaction between aggregating molecules. The aggregation behavior of Asphaltene in aqueous solution was studied by Vatti et al [23], in the study, Violanthrone-97 was considered as the model Asphaltene compound while three water models were considered. The results obtained from the study emphasized the importance of using appropriate water models in studying the aggregation behavior of Asphaltenes.…”

Section: Introductionmentioning

confidence: 99%

Molecular Dynamics Study of Solvent Effect on the Structure and Characteristics of Asphaltene aggregates.

Oguamah

Isehunwa

Ndubisi

et al. 2022

Preprint

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The aggregation behavior of Asphaltene molecules in solution was studied by molecular dynamic simulation. Three Asphaltene models were studied in Hexane and o-Dichlorobenzene. The simulations were carried out using the GROMACS software, while the GROMOS 54A7 force field was used for the solvent models. The temperature range for the simulation was 300K to 350K, while the system pressure was at 1bar. The Radius of gyration, Cluster size distribution, and radial distribution function g(r), for the three Asphaltenes in solution, was determined from the study. The molecules form aggregates leading to the formation of parallel and non-parallel π- π stacking between the aromatic rings and resulting in a relatively stable aggregate structure. In Hexane, molecules with larger conjugate cores form aggregates more rapidly at lower temperatures while in o-Dichlorobenzene molecules which has a longer lateral chain formed more stable aggregates at lower temperatures. In comparison, aggregates are denser and more stable in Hexane than in o-Dichlorobenzene, while the latter is a better solvent for Asphaltene. It was also demonstrated that at higher temperatures the Asphaltene molecules will dissociate from the bulk mass to form smaller unstable aggregates, causing a decrease in the radius of gyration (R G ) of Asphaltene aggregates. Furthermore, the results demonstrated that the temperature, Asphaltene structures, and the presence of polar groups play a significant role in Asphaltene-solvent interactions.

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Asphaltene Aggregation in Aqueous Solution Using Different Water Models: A Classical Molecular Dynamics Study

Cited by 18 publications

References 42 publications

Combined experimental and molecular dynamics investigation of 1D rod-like asphaltene aggregation in toluene-hexane mixture

Combined experimental and molecular dynamics investigation of 1D rod-like asphaltene aggregation in toluene-hexane mixture

Role of Ionic Liquid in Asphaltene Dissolution: A Combined Experimental and Molecular Dynamics Study

Molecular Dynamics Study of Solvent Effect on the Structure and Characteristics of Asphaltene aggregates.

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