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Transport mechanisms of CO2/N2-CH4 flow: A digital rock study based on in-situ reaction of CO2-brine-carbonate systems

Cheng Cao, ShiHao Xu, Yulong Zhao, YongChao Wang, LieHui Zhang, QingPing Li, ShouWei Zhou, Shaomu Wen, YunSheng Wei, Jinbu Li, Lili Liu

2025Energy14 citationsDOI

Topics & Concepts

TortuosityPorosityMixing (physics)Petroleum engineeringEnhanced oil recoveryCarbonatePorous mediumPore water pressureMass transferGeologyDisplacement (psychology)Environmental scienceBrineParametric statisticsMechanicsFractalSoil scienceMaterials scienceMineralogyPlumeHydrocarbonComputer simulationTRACERGeotechnical engineeringMass transportBoundary value problemInfiltration (HVAC)CO2 Sequestration and Geologic InteractionsEnhanced Oil Recovery TechniquesHydraulic Fracturing and Reservoir Analysis
Transport mechanisms of CO2/N2-CH4 flow: A digital rock study based on in-situ reaction of CO2-brine-carbonate systems | Litcius