Explore
Development of Unconventional Reservoirs
Reza Rezaee
2020
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The need for energy is increasing and but the production from conventional reservoirs is declining quickly. This requires an economically and technically feasible source of energy for the coming years. Among some alternative future energy solutions, the most reasonable source is from unconventional reservoirs. As the name “unconventional” implies, different and challenging approaches are required to characterize and develop these resources. This Special Issue covers some of the technical challenges for developing unconventional energy sources from shale gas/oil, tight gas sand, and coalbed methane.
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Keywords
- adsorption
- adsorption and desorption isotherms
- adsorption capacity
- air flooding
- and tight sand gas)
- automatic classification
- capillary number
- capillary trapping
- caprock integrity
- carbon dioxide sequestration
- catalyst-activated low temperature oxidation
- catalytic oxidation characteristics
- Changqing tight oil
- clay bound water
- clay content
- co-exploitation
- CO2 huff-n-puff
- coal measure gases (coalbed gas
- coal rank
- coalbed methane
- compositional 3D
- Computer Modelling Group (CMG)
- condensate recovery
- convolutional neural network
- deepwater well
- diffusion coefficient
- drilling fluid
- dual-porosity system
- electrical resistivity
- equation of state
- equilibrium sorption
- flow behavior
- flow channel
- fracture penetration extent
- fractured tight reservoir
- fractured-vuggy reservoirs
- Fractures
- gas adsorption and desorption
- gas compressibility factors
- gas content
- gas permeability measurement
- gas shale
- GEM®
- gradation optimization
- gravel pack
- gravity differentiation
- helium porosimetry
- high pressure and low flowrate
- horizontal well
- hydraulic flow units
- initial water saturation
- injection and production pattern
- Klinkenberg slippage theory
- lab tests under reservoir condition
- Langmuir model
- Langmuir pressure
- Langmuir volume
- limestone and calcareous mudstone interbedding
- low-pressure gas adsorption
- medium volatile bituminous coal
- methane adsorption capacity
- MICP
- micro-CT image
- multi-stage fracturing horizontal wells
- NIST-Refprop
- Niutitang formation
- NMR
- northern Guizhou
- nuclear magnetic resonance
- Numerical analysis
- numerical model
- oil migration
- optimization measures
- organic pores
- organic-rich shale
- original gas in-place
- orthogonal test
- oxidation reaction pathway
- peak pressure
- perforated string
- perforation safety
- petrography
- petrophysical properties
- petrophysics
- physical model
- pore size distribution
- pore structure
- porosity
- porosity–permeability
- pressure derivative
- pseudo-steady-state non-equilibrium sorption
- pulse decay test
- Reference, information & interdisciplinary subjects
- reorientation fractures
- Research & information: general
- reservoir simulation
- residual gas distribution
- rock-water-CO2 interaction
- safety analysis
- sand control
- semi-analytical model
- shale alteration
- shale gas
- shale gas condensate reservoir
- shock loads
- sorption hysteresis
- source-mixed gas
- stress-dependent permeability
- theoretical model
- tight gas reservoirs
- tight gas sand
- tight oil reservoirs
- tight reservoir
- tight reservoirs
- TOC recovery
- total organic carbon
- total organic carbon (TOC)
- transient pressure
- ultra-deep well
- unconventional
- unconventional reservoirs
- unsteady state non-equilibrium sorption
- visual experiment
- water flooding effect
- water imbibition
- well interference
- well testing
- wellbore stability
- wettability
- zeta potential