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Recent Insights from Computational Materials Chemistry into Interfaces Relevant to Enhanced Oil Recovery
Author(s) -
Singh Nirpendra,
Sharma Sitansh,
Vovusha Hakkim,
Li Huifang,
Schwingenschlögl Udo
Publication year - 2019
Publication title -
advanced theory and simulations
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.068
H-Index - 17
ISSN - 2513-0390
DOI - 10.1002/adts.201800183
Subject(s) - relevance (law) , petroleum engineering , field (mathematics) , calcite , enhanced oil recovery , oil field , biochemical engineering , component (thermodynamics) , earth science , computer science , geology , engineering , mineralogy , political science , physics , mathematics , pure mathematics , law , thermodynamics
Efficient usage of earth's limited oil reserves requires fundamental understanding of the interfacial effects governing oil recovery. As experimental access to such knowledge is often limited, modern simulation techniques are constantly gaining relevance in this field of research. This progress report therefore addresses recent studies of materials chemistry dealing with computational approaches to obtain insights into the interaction between rock surfaces, water, and oil components. It aims both at providing a starting point for newcomers to the field and at equipping experts with an overview of new developments. Being the most prominent mineral in oil reservoirs and the main component of sedimentary carbonate rock, special attention is given to interfaces involving calcite (CaCO 3 ). While the research field still develops in two branches with most studies dealing either with rock–water or rock–oil interaction, it will be important to consider also collective effects at general rock–water–oil interfaces in future investigations.