Journal
JOURNAL OF PETROLEUM SCIENCE AND ENGINEERING
Volume 170, Issue -, Pages 177-183Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.petrol.2018.06.043
Keywords
Asphaltene aggregation; Hydrogen bonds; Molecular dynamics; Salinity; Water miscibility; Waterflooding
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Funding
- Higher Committee for Education Development in Iraq (HCED)
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In the present study, we report our findings on various asphaltenes-water interactions at a high reservoir condition (550 K and 200 bar) and the role of water in asphaltene association during the waterflooding process. Molecular dynamics simulations are performed on oil/water and oil/brine systems. The oil phase is composed of asphaltenes (10 wt%) and ortho-xylene in which asphaltenes are entirely soluble. Seven different model-asphaltenes with diverse molecular weights, architectures, and heteroatom contents are employed. Interestingly, Results indicate that asphaltenes become less soluble in oil when water is partially misciblized in the oil phase. All model-asphaltenes containing nitrogen and/or oxygen atoms in their structures are prone to association. The driving force behind asphaltene aggregation is shown to be an asphaltene-water hydrogen bond. The utilization of the brine (3.5 wt% NaCl) instead of pure water induces a slight decrease in asphaltene propensity for aggregation due to salt-in effect. Results also suggest that face-to-face contact is the prominent stacking of asphaltene molecules in their aggregates.
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