Add to ORKGABSTRACT: It is well known that asphaltene molecules play a significant role in stabilizing emulsions of water in crude oil or diluted bitumen solutions. Molecular dynamics simulations were employed to investigate the aggregation and orientation behaviors of asphaltene molecules in a vacuum and at various water surfaces. Two different continental model asphaltene molecules were employed in this work. It was found that the initially disordered asphaltenes quickly self-assembled into ordered nanoaggregates consisting of several molecules, in which the aromatic rings in asphaltenes were reoriented to form a face-to-face stacked structure. More importantly, statistical analysis indicates that most of the stacked polycyclic aromatic planes of as...
Asphaltenes cause problems such as emulsion formation and deposition/precipitation during crude oil ...
We report classical atomistic molecular dynamics simulations of four structurally diverse model asph...
Water droplets in crude oil can be stabilized by the adsorption of interfacially active components, ...
It is well known that asphaltene molecules play a significant role in stabilizing emulsions of water...
It is well known that asphaltene molecules play a significant role in stabilizing emulsions of water...
We have investigated the interfacial behavior of asphaltene molecules at the oil–water interface usi...
The aggregation behavior of asphaltene in aqueous solution is systematically investigated based on a...
The aggregates of asphaltene and resin molecules play an important role in stabilizing heavy crude o...
The stabilization of heavy oil plays an important role in the aggregation of asphaltene and resin mo...
Asphaltenes, widely known as the “cholesterol of petroleum”, are the heaviest and most polarizable c...
International audienceThis paper addresses molecular dynamic simulations to correlate the aggregatio...
Asphaltenes constitute a heavy aromatic crude oil fraction with a propensity to aggregate and precip...
In order to investigate the aggregation mechanisms of asphaltenes in toluene, a series of molecular ...
Asphaltenes are known as the "cholesterol" of crude oil. They form nanoaggregates, precipitate, adhe...
Asphaltenes are known as the 'cholesterol' of crude oil. They form nano-aggregates, precipitate, adh...
Asphaltenes cause problems such as emulsion formation and deposition/precipitation during crude oil ...
We report classical atomistic molecular dynamics simulations of four structurally diverse model asph...
Water droplets in crude oil can be stabilized by the adsorption of interfacially active components, ...
It is well known that asphaltene molecules play a significant role in stabilizing emulsions of water...
It is well known that asphaltene molecules play a significant role in stabilizing emulsions of water...
We have investigated the interfacial behavior of asphaltene molecules at the oil–water interface usi...
The aggregation behavior of asphaltene in aqueous solution is systematically investigated based on a...
The aggregates of asphaltene and resin molecules play an important role in stabilizing heavy crude o...
The stabilization of heavy oil plays an important role in the aggregation of asphaltene and resin mo...
Asphaltenes, widely known as the “cholesterol of petroleum”, are the heaviest and most polarizable c...
International audienceThis paper addresses molecular dynamic simulations to correlate the aggregatio...
Asphaltenes constitute a heavy aromatic crude oil fraction with a propensity to aggregate and precip...
In order to investigate the aggregation mechanisms of asphaltenes in toluene, a series of molecular ...
Asphaltenes are known as the "cholesterol" of crude oil. They form nanoaggregates, precipitate, adhe...
Asphaltenes are known as the 'cholesterol' of crude oil. They form nano-aggregates, precipitate, adh...
Asphaltenes cause problems such as emulsion formation and deposition/precipitation during crude oil ...
We report classical atomistic molecular dynamics simulations of four structurally diverse model asph...
Water droplets in crude oil can be stabilized by the adsorption of interfacially active components, ...