Understanding the Aggregation of Model Island and Archipelago Asphaltene Molecules near Kaolinite Surfaces using Molecular Dynamics

Abstract: The solubility of asphaltenes in hydrocarbons changes with pressure, composition, and temperature, leading to precipitation and deposition, thereby causing one of the crucial problems that negatively affects oil production, transportation, and processing. Because, in some circumstances, it might be advantageous to promote asphaltene agglomeration into small colloidal particles, molecular dynamics simulations were conducted here to understand the impacts of a chemical additive inspired by cyclohexane on the mec… Show more

“…Future research will benefit from progress in developing force fields suitable for describing complex multicomponent systems. For example, Ahmadi and Chen investigated the interfacial behavior of different surfactants in an asphaltene–water interface; Ali et al studied the impacts of a chemical additive inspired in cyclohexane on asphaltene aggregation in the presence and absence of a kaolinite surface at 300 and 400 K.…”

Machine Learning Suggests Possible Bias in Molecular Simulations for Asphaltene Systems

“…Future research will benefit from progress in developing force fields suitable for describing complex multicomponent systems. For example, Ahmadi and Chen investigated the interfacial behavior of different surfactants in an asphaltene–water interface; Ali et al studied the impacts of a chemical additive inspired in cyclohexane on asphaltene aggregation in the presence and absence of a kaolinite surface at 300 and 400 K.…”

Machine Learning Suggests Possible Bias in Molecular Simulations for Asphaltene Systems

Review and perspectives on CO2 induced asphaltene instability: Fundamentals and implications for phase behaviour, flow assurance, and formation damage in oil reservoirs