Keywords: نفت شیل; Shale oil; Kerogen nanopores; Boundary slip and physical adsorption; Flow enhancement; Correction factor;
مقالات ISI نفت شیل (ترجمه نشده)
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Keywords: نفت شیل; Nanoscale liquid flow; lattice Boltzmann method; Porous media; Shale oil; End effect;
Keywords: نفت شیل; Shale oil; Oil-reservoir correlation; Carbon isotopes; Biomarker; Niobrara formation;
Keywords: نفت شیل; Crude oil prices; Oil; Tight oil; Shale oil; L7; Q3; Q4;
Keywords: نفت شیل; Shale oil; Assessment; Dongying depression; Bohai Bay Basin;
Keywords: نفت شیل; Shale oil; Pore structure; Mineral component; Occurrence of space; Free phase; Adsorbed phase; Enrichment;
Keywords: نفت شیل; Low velocity non-Darcy flow; Threshold pressure gradient; Well production performance; Shale oil; Tight oil;
Keywords: نفت شیل; shale oil; Bazhenov Formation; source and reservoir potential; evaluation of resources;
Keywords: نفت شیل; Oil price; Gold price; Correlation; Shale oil; Safe haven;
Keywords: نفت شیل; Pyrolysis; Kerogen; Chemical structure; Mechanism; Oil shale; Coal; Tar; Shale oil;
Keywords: نفت شیل; Shale oil; Pore size distribution; Gaussian Mixture Model; Occurrence state;
Keywords: نفت شیل; Gas flooding; Gas huff-n-puff; Improved oil recovery; Shale reservoirs; Shale oil;
Keywords: نفت شیل; Shale oil; Hydraulic pumps; Friction; Ultra-short pulse laser surface structuring;
Keywords: نفت شیل; Huff-and-puff; Shale oil; Sensitivity analysis; Optimization; Bakken;
Keywords: نفت شیل; Bohai Bay Basin; Dongying Sag; Paleogene; shale oil; pore structure; porosity; permeability; connectivity; geometrical tortuosity;
Keywords: نفت شیل; Shale oil; Expulsion fractures; Characteristics; Thermal simulation experiments; Influencing factors; Development model; Jiyang Depression;
Keywords: نفت شیل; Q35; Q31; O53; L71; L11; L13; C63; C61; Crude oil; OPEC; Shale oil; Oil price; Equilibrium modelling; Saudi Arabia; Shale revolution;
Keywords: نفت شیل; Shale oil; Thermal stimulation; Kerogen conversion; Thermal pressurization; Enhanced oil recovery;
Keywords: نفت شیل; Saline lake; Shale oil; Fracability; Eocene; Jianghan Basin;
Keywords: نفت شیل; Unconventional resources; Compositional simulations; Hydraulic fractures; Natural fractures; Shale oil; Miscible gas injection; Phase behavior;
Keywords: نفت شیل; Crude oil; Limit pricing; Market share; OPEC; Shale oil; L12; L71; Q41;
Keywords: نفت شیل; L71; Q31; Q33; Q35; Q41; Shale oil; Price elasticity; Drilling productivity; Lognormal distribution;
Keywords: نفت شیل; Crude Oil; OPEC; Price; Shale Oil; Barrel;
Keywords: نفت شیل; SCFE; Supercritical; Oil shale; Shale oil; CO2; Co-solvent; Extraction
Keywords: نفت شیل; Shale oil; Adsorption; Dongying Depression; Bohai Bay Basin;
Keywords: نفت شیل; unconventional liquid reservoir; wettability; wettability alteration; surfactant; spontaneous imbibition; enhanced oil recovery; shale oil
Keywords: نفت شیل; Produced water; Shale oil; Hydraulic fracturing; Permian Basin; Gas chromatography mass spectrometry; Volatile organic
Keywords: نفت شیل; Shale oil; Black-oil model; Capillary pressure; Reserve calculation; Oil production;
Keywords: نفت شیل; shale oil; tight oil; reservoir characteristics; evaluation elements and criteria; organic matter content;
Keywords: نفت شیل; Shale gas; Shale oil; Fracking; Hydraulic fracturing; Unconventional hydrocarbons
Keywords: نفت شیل; Shale oil; Gas condensate; Shale reservoirs; Liquid-rich; Enhanced oil recovery; Huff and puff; Gas flooding; Gas injection;
Keywords: نفت شیل; Oil shale; Shale oil; Retorting; Low-energy input; Biomass;
Keywords: نفت شیل; Shale oil; Shale gas; Pyrolysis-FTIR; Assessment; Midland Valley;
Keywords: نفت شیل; Oil shale; Shale oil; Retorting; Self-heating; Pyrolysis; Low-energy input
Keywords: نفت شیل; Shale oil; Surfactant; Interfacial tension; Contact angle; Wettability
Keywords: نفت شیل; Shale oil; Representative sample size; Transport properties; Pores size distribution; Pore types
Keywords: نفت شیل; Adsorption; Shale oil; Molecular dynamics; Oil-in-place estimation; Pore geometry
Keywords: نفت شیل; Oil shale; Shale oil; Retorting; Self-heating effect; Pyrolysis;
Keywords: نفت شیل; Cracking kinetics; Fracability; Generation kinetics; Lake level; Shale gas; Shale oil; Waltman Shale; Wind River basin;
Keywords: نفت شیل; Continental shale; Ordos Basin; Shale gas; Shale oil; Upper Triassic;
Keywords: نفت شیل; Thermal maturity; Crude oil; Shale oil; FTICR-MS; Polar compounds; Sulfur compounds; Nitrogen compounds; Oxygen compounds; Diamondoids; Highly alkylated diamantanes;
Keywords: نفت شیل; Shale oil; Compositions; Acidic fractions; Basic fractions;
Keywords: نفت شیل; Q30; L12; H21Limit-pricing monopoly; Demand elasticity; Carbon tax; Non-renewable resources; Oil substitutes; Shale oil
Keywords: نفت شیل; Shale oil; Pyrolysis free hydrocarbon; Oil content; Biyang depression; Eocene
Keywords: نفت شیل; Oil price; Shale oil; OPEC; Renewable energy;
Keywords: نفت شیل; Q41; Q47; E17; Saudi Arabia; General equilibrium; Shale oil;
A review of the current progress of CO2 injection EOR and carbon storage in shale oil reservoirs
Keywords: نفت شیل; Shale oil; Gas injection; Fracture; Numerical modeling; PVT; Shale petrophysics; AD-GPRS; automated differentiation based general purpose research simulator; CCS; carbon capture and storage; CT; computed tomography; DFIT; diagnostic fracture injection tes
Influence of inherent mineral matrix on the product yield and characterization from Huadian oil shale pyrolysis
Keywords: نفت شیل; Oil shale; Pyrolysis; Carbonate minerals; Silicate minerals; Shale oil;
Compositional characterization of neutral fractions in <300â¯Â°C distillates of six shale oils using extrography followed by GC-TOF/MS analysis
Keywords: نفت شیل; Shale oil; Compositions; Neutral fractions; Extrography; GC-TOF/MS;
A comparison of the structures of >300 °C fractions in six Chinese shale oils obtained from different locations using 1H NMR, 13C NMR and FT-IR analyses
Keywords: نفت شیل; Shale oil; Structures; NMR; FT-IR;