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210512 ||| eng |
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|a 9783039285808
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|a 9783039285815
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|a books978-3-03928-581-5
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| 100 |
1 |
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|a Rezaee, Reza
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| 245 |
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|a Development of Unconventional Reservoirs
|h Elektronische Ressource
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| 260 |
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|b MDPI - Multidisciplinary Digital Publishing Institute
|c 2020
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| 300 |
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|a 1 electronic resource (522 p.)
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| 653 |
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|a visual experiment
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| 653 |
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|a capillary number
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| 653 |
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|a Langmuir model
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| 653 |
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|a Klinkenberg slippage theory
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| 653 |
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|a gas shale
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| 653 |
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|a Niutitang formation
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| 653 |
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|a TOC recovery
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| 653 |
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|a MICP
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| 653 |
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|a NMR
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| 653 |
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|a optimization measures
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| 653 |
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|a theoretical model
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| 653 |
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|a pore structure
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| 653 |
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|a pore size distribution
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| 653 |
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|a limestone and calcareous mudstone interbedding
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| 653 |
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|a NIST-Refprop
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| 653 |
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|a ultra-deep well
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| 653 |
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|a tight gas reservoirs
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| 653 |
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|a CO2 huff-n-puff
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| 653 |
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|a shale alteration
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| 653 |
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|a high pressure and low flowrate
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| 653 |
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|a horizontal well
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| 653 |
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|a fracture penetration extent
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| 653 |
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|a reorientation fractures
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| 653 |
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|a Langmuir volume
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| 653 |
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|a compositional 3D
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| 653 |
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|a carbon dioxide sequestration
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| 653 |
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|a peak pressure
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| 653 |
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|a gradation optimization
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| 653 |
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|a water flooding effect
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| 653 |
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|a unconventional reservoirs
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| 653 |
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|a Langmuir pressure
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| 653 |
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|a shock loads
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| 653 |
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|a deepwater well
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| 653 |
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|a Computer Modelling Group (CMG)
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| 653 |
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|a original gas in-place
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| 653 |
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|a automatic classification
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| 653 |
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|a flow channel
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| 653 |
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|a reservoir simulation
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| 653 |
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|a oil migration
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| 653 |
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|a equilibrium sorption
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| 653 |
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|a organic pores
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| 653 |
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|a numerical analysis
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| 653 |
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|a coalbed methane
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| 653 |
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|a gas permeability measurement
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| 653 |
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|a gravel pack
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| 653 |
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|a drilling fluid
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| 653 |
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|a coal rank
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| 653 |
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|a water imbibition
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| 653 |
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|a adsorption
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| 653 |
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|a methane adsorption capacity
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| 653 |
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|a unconventional
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| 653 |
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|a fractured-vuggy reservoirs
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| 653 |
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|a clay content
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| 653 |
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|a gas adsorption and desorption
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| 653 |
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|a initial water saturation
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| 653 |
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|a electrical resistivity
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| 653 |
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|a safety analysis
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| 653 |
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|a petrophysics
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| 653 |
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|a catalyst-activated low temperature oxidation
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| 653 |
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|a gas compressibility factors
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| 653 |
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|a flow behavior
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| 653 |
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|a sand control
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| 653 |
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|a air flooding
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| 653 |
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|a perforated string
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| 653 |
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|a tight reservoirs
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| 653 |
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|a caprock integrity
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| 653 |
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|a transient pressure
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| 653 |
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|a oxidation reaction pathway
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| 653 |
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|a orthogonal test
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| 653 |
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|a pressure derivative
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| 653 |
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|a micro-CT image
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| 653 |
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|a source-mixed gas
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| 653 |
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|a porosity–permeability
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| 653 |
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|a petrophysical properties
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| 653 |
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|a equation of state
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| 653 |
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|a multi-stage fracturing horizontal wells
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| 653 |
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|a co-exploitation
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| 653 |
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|a petrography
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| 653 |
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|a shale gas
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| 653 |
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|a nuclear magnetic resonance
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| 653 |
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|a physical model
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| 653 |
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|a gas content
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| 653 |
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|a medium volatile bituminous coal
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| 653 |
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|a pseudo-steady-state non-equilibrium sorption
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| 653 |
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|a porosity
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| 653 |
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|a tight reservoir
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| 653 |
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|a shale gas condensate reservoir
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| 653 |
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|a residual gas distribution
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| 653 |
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|a adsorption capacity
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| 653 |
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|a total organic carbon (TOC)
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| 653 |
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|a capillary trapping
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| 653 |
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|a tight oil reservoirs
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| 653 |
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|a sorption hysteresis
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| 653 |
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|a and tight sand gas)
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| 653 |
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|a dual-porosity system
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| 653 |
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|a helium porosimetry
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| 653 |
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|a fractured tight reservoir
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| 653 |
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|a adsorption and desorption isotherms
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| 653 |
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|a semi-analytical model
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| 653 |
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|a fractures
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| 653 |
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|a catalytic oxidation characteristics
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| 653 |
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|a well interference
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| 653 |
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|a stress-dependent permeability
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| 653 |
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|a low-pressure gas adsorption
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| 653 |
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|a injection and production pattern
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| 653 |
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|a gravity differentiation
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| 653 |
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|a GEM®
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| 653 |
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|a organic-rich shale
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| 653 |
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|a unsteady state non-equilibrium sorption
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| 653 |
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|a lab tests under reservoir condition
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| 653 |
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|a diffusion coefficient
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| 653 |
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|a wettability
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| 653 |
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|a zeta potential
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| 653 |
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|a tight gas sand
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| 653 |
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|a perforation safety
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| 653 |
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|a convolutional neural network
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| 653 |
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|a clay bound water
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| 653 |
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|a condensate recovery
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| 653 |
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|a numerical model
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| 653 |
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|a Changqing tight oil
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| 653 |
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|a wellbore stability
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| 653 |
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|a pulse decay test
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| 653 |
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|a rock-water-CO2 interaction
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| 653 |
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|a total organic carbon
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| 653 |
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|a well testing
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| 653 |
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|a coal measure gases (coalbed gas
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| 653 |
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|a northern Guizhou
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| 653 |
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|a hydraulic flow units
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| 041 |
0 |
7 |
|a eng
|2 ISO 639-2
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| 989 |
|
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|b DOAB
|a Directory of Open Access Books
|
| 500 |
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|a Creative Commons (cc), https://creativecommons.org/licenses/by-nc-nd/4.0/
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| 024 |
8 |
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|a 10.3390/books978-3-03928-581-5
|
| 856 |
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|u https://directory.doabooks.org/handle/20.500.12854/44954
|3 Volltext
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|a 304
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|a 530
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|a 333
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|a 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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