Recent Advances in Reservoir Simulation and Carbon Utilization and Storage

This volume compiles advanced research on unconventional reservoir engineering, addressing hydraulic fracturing, CO2 utilization, and data-driven modeling. Integrating experiments, simulations, and machine learning (ML), it offers solutions to optimize hydrocarbon recovery and sustainability. Key th...

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collection Directory of Open Access Books
description This volume compiles advanced research on unconventional reservoir engineering, addressing hydraulic fracturing, CO2 utilization, and data-driven modeling. Integrating experiments, simulations, and machine learning (ML), it offers solutions to optimize hydrocarbon recovery and sustainability. Key themes include the following: (1) fracture mechanics, exploring fracture propagation in inter-salt shales, viscoplastic fracture behavior, and ML-guided fracture spacing; (2) CO2 applications, examining its dual role in EOR and storage via injection strategies, ML-predicted flooding outcomes, and CO2–water–rock interactions affecting reservoir integrity; (3) modeling innovations, such as VOF-based pore-scale multiphase flow simulations, ML-driven fracture optimization, and productivity forecasting in condensate-rich shales; and (4) practical advances, including nanoparticle–surfactant EOR systems, high-permeability streak detection in carbonates, coal creep analysis, and gas storage well-testing protocols. Bridging nanoscale fluid dynamics to field-scale CO2 management, this book equips researchers and engineers with tools to enhance recovery efficiency, mitigate environmental impacts, and leverage emerging technologies for the sustainable development of unconventional resources in a low-carbon era.
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language eng
publishDate 2025
publishDateRange 2025
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1653192025-08-12T09:20:42Z Recent Advances in Reservoir Simulation and Carbon Utilization and Storage Liu, Wenchao Sun, Hai Wang, Daobing rock mechanics creep stress relaxation damage constitutive model coal inter-salt shale oil fracture propagation fracturing fluid viscosity in-situ stress pumping displacement supercritical CO2 fracturing borehole stability disturbance state concept elastic–plastic deformation finite element method numerical simulation underground gas storage multiple vertical wells flow behavior well interference case study analytical model temporary shut-in well performance shale oil reservoir oil–water displacement optimized shut-in scheme shale condensate gas reservoirs multi-stage fractured horizontal wells flow-rate deconvolution Blasingame production decline typical curve productivity prediction shale oil multi-stage fractured horizontal well fracture spacing optimization deconvolution dynamic production data analysis Shenhua block saline aquifer carbon capture and storage (CCS) multi-field coupling porosity permeability reef complex carbonate reservoir super-reservoir dynamic modelling shale formation CO2 flooding CO2–water–rock reaction blocking action dissolution reaction vacuum-imbibition clay shale organic saturation inorganic saturation organic permeability inorganic permeability viscoplasticity creep behavior fracture closure CO2-EOR machine learning oil recovery prediction tight oil reservoirs effective burial coefficient CCUS artificial intelligence acid fracturing natural fracture hydro-mechano-reactive flow model phase field method fracture propagation modes MgO nanoparticles interfacial tension reduction enhanced oil recovery sustainable nanotechnology porous media volume flow model two-phase flow non-Newtonian fluid OpenFOAM thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology This volume compiles advanced research on unconventional reservoir engineering, addressing hydraulic fracturing, CO2 utilization, and data-driven modeling. Integrating experiments, simulations, and machine learning (ML), it offers solutions to optimize hydrocarbon recovery and sustainability. Key themes include the following: (1) fracture mechanics, exploring fracture propagation in inter-salt shales, viscoplastic fracture behavior, and ML-guided fracture spacing; (2) CO2 applications, examining its dual role in EOR and storage via injection strategies, ML-predicted flooding outcomes, and CO2–water–rock interactions affecting reservoir integrity; (3) modeling innovations, such as VOF-based pore-scale multiphase flow simulations, ML-driven fracture optimization, and productivity forecasting in condensate-rich shales; and (4) practical advances, including nanoparticle–surfactant EOR systems, high-permeability streak detection in carbonates, coal creep analysis, and gas storage well-testing protocols. Bridging nanoscale fluid dynamics to field-scale CO2 management, this book equips researchers and engineers with tools to enhance recovery efficiency, mitigate environmental impacts, and leverage emerging technologies for the sustainable development of unconventional resources in a low-carbon era. 2025-08-12T09:20:40Z 2025-08-12T09:20:40Z 2025 book ONIX_20250812T110751_9783725835683_75 9783725835683 9783725835676 https://directory.doabooks.org/handle/20.500.12854/165319 eng image/jpeg Attribution 4.0 International https://mdpi.com/books https://mdpi.com/books/pdfview/book/10683 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-3567-6 10.3390/books978-3-7258-3567-6 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725835683 9783725835676 334 open access
spellingShingle rock mechanics
creep
stress relaxation
damage
constitutive model
coal
inter-salt shale oil
fracture propagation
fracturing fluid viscosity
in-situ stress
pumping displacement
supercritical CO2 fracturing
borehole stability
disturbance state concept
elastic–plastic deformation
finite element method
numerical simulation
underground gas storage
multiple vertical wells
flow behavior
well interference
case study
analytical model
temporary shut-in
well performance
shale oil reservoir
oil–water displacement
optimized shut-in scheme
shale condensate gas reservoirs
multi-stage fractured horizontal wells
flow-rate deconvolution
Blasingame production decline typical curve
productivity prediction
shale oil
multi-stage fractured horizontal well
fracture spacing optimization
deconvolution
dynamic production data analysis
Shenhua block
saline aquifer
carbon capture and storage (CCS)
multi-field coupling
porosity
permeability
reef
complex carbonate reservoir
super-reservoir
dynamic modelling
shale formation
CO2 flooding
CO2–water–rock reaction
blocking action
dissolution reaction
vacuum-imbibition
clay
shale
organic saturation
inorganic saturation
organic permeability
inorganic permeability
viscoplasticity
creep behavior
fracture closure
CO2-EOR
machine learning
oil recovery prediction
tight oil reservoirs
effective burial coefficient
CCUS
artificial intelligence
acid fracturing
natural fracture
hydro-mechano-reactive flow model
phase field method
fracture propagation modes
MgO nanoparticles
interfacial tension reduction
enhanced oil recovery
sustainable nanotechnology
porous media
volume flow model
two-phase flow
non-Newtonian fluid
OpenFOAM
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Recent Advances in Reservoir Simulation and Carbon Utilization and Storage
title Recent Advances in Reservoir Simulation and Carbon Utilization and Storage
title_full Recent Advances in Reservoir Simulation and Carbon Utilization and Storage
title_fullStr Recent Advances in Reservoir Simulation and Carbon Utilization and Storage
title_full_unstemmed Recent Advances in Reservoir Simulation and Carbon Utilization and Storage
title_short Recent Advances in Reservoir Simulation and Carbon Utilization and Storage
title_sort recent advances in reservoir simulation and carbon utilization and storage
topic rock mechanics
creep
stress relaxation
damage
constitutive model
coal
inter-salt shale oil
fracture propagation
fracturing fluid viscosity
in-situ stress
pumping displacement
supercritical CO2 fracturing
borehole stability
disturbance state concept
elastic–plastic deformation
finite element method
numerical simulation
underground gas storage
multiple vertical wells
flow behavior
well interference
case study
analytical model
temporary shut-in
well performance
shale oil reservoir
oil–water displacement
optimized shut-in scheme
shale condensate gas reservoirs
multi-stage fractured horizontal wells
flow-rate deconvolution
Blasingame production decline typical curve
productivity prediction
shale oil
multi-stage fractured horizontal well
fracture spacing optimization
deconvolution
dynamic production data analysis
Shenhua block
saline aquifer
carbon capture and storage (CCS)
multi-field coupling
porosity
permeability
reef
complex carbonate reservoir
super-reservoir
dynamic modelling
shale formation
CO2 flooding
CO2–water–rock reaction
blocking action
dissolution reaction
vacuum-imbibition
clay
shale
organic saturation
inorganic saturation
organic permeability
inorganic permeability
viscoplasticity
creep behavior
fracture closure
CO2-EOR
machine learning
oil recovery prediction
tight oil reservoirs
effective burial coefficient
CCUS
artificial intelligence
acid fracturing
natural fracture
hydro-mechano-reactive flow model
phase field method
fracture propagation modes
MgO nanoparticles
interfacial tension reduction
enhanced oil recovery
sustainable nanotechnology
porous media
volume flow model
two-phase flow
non-Newtonian fluid
OpenFOAM
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet rock mechanics
creep
stress relaxation
damage
constitutive model
coal
inter-salt shale oil
fracture propagation
fracturing fluid viscosity
in-situ stress
pumping displacement
supercritical CO2 fracturing
borehole stability
disturbance state concept
elastic–plastic deformation
finite element method
numerical simulation
underground gas storage
multiple vertical wells
flow behavior
well interference
case study
analytical model
temporary shut-in
well performance
shale oil reservoir
oil–water displacement
optimized shut-in scheme
shale condensate gas reservoirs
multi-stage fractured horizontal wells
flow-rate deconvolution
Blasingame production decline typical curve
productivity prediction
shale oil
multi-stage fractured horizontal well
fracture spacing optimization
deconvolution
dynamic production data analysis
Shenhua block
saline aquifer
carbon capture and storage (CCS)
multi-field coupling
porosity
permeability
reef
complex carbonate reservoir
super-reservoir
dynamic modelling
shale formation
CO2 flooding
CO2–water–rock reaction
blocking action
dissolution reaction
vacuum-imbibition
clay
shale
organic saturation
inorganic saturation
organic permeability
inorganic permeability
viscoplasticity
creep behavior
fracture closure
CO2-EOR
machine learning
oil recovery prediction
tight oil reservoirs
effective burial coefficient
CCUS
artificial intelligence
acid fracturing
natural fracture
hydro-mechano-reactive flow model
phase field method
fracture propagation modes
MgO nanoparticles
interfacial tension reduction
enhanced oil recovery
sustainable nanotechnology
porous media
volume flow model
two-phase flow
non-Newtonian fluid
OpenFOAM
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url ONIX_20250812T110751_9783725835683_75