Litcius/Paper detail

Atomistic insight into salinity dependent preferential binding of polar aromatics to calcite/brine interface: implications to low salinity waterflooding

Mohammad Koleini, Mohammad Hasan Badizad, Hassan Mahani, Ali Mirzaalian Dastjerdi, Shahab Ayatollahi, Mohammad Hossein Ghazanfari

2021Scientific Reports37 citationsDOIOpen Access PDF

Abstract

Abstract This paper resolve the salinity-dependent interactions of polar components of crude oil at calcite-brine interface in atomic resolution. Molecular dynamics simulations carried out on the present study showed that ordered water monolayers develop immediate to a calcite substrate in contact with a saline solution. Carboxylic compounds, herein represented by benzoic acid (BA), penetrate into those hydration layers and directly linking to the calcite surface. Through a mechanism termed screening effect, development of hydrogen bonding between –COOH functional groups of BA and carbonate groups is inhibited by formation of a positively-charged Na + layer over CaCO 3 surface. Contrary to the common perception, a sodium-depleted solution potentially intensifies surface adsorption of polar hydrocarbons onto carbonate substrates; thus, shifting wetting characteristic to hydrophobic condition. In the context of enhanced oil recovery, an ion-engineered waterflooding would be more effective than injecting a solely diluted saltwater.

Topics & Concepts

CalciteBrineCarbonateWettingChemistryAdsorptionChemical engineeringSalinityPolarHydrogen bondMonolayerCalcium carbonateInorganic chemistryMineralogyGeologyOrganic chemistryMoleculeOceanographyBiochemistryAstronomyEngineeringPhysicsEnhanced Oil Recovery TechniquesHydrocarbon exploration and reservoir analysisPetroleum Processing and Analysis