Development of Unconventional Reservoirs 2020

© 2022 by the authors; CC BY-NC-ND license

bedding fractures; failure criterion; lamina; tight oil; tight sandstone; finite element simulation; numerical simulation; unconventional reservoir; permeability; group method of data handling; artificial neural network; well logs; sensitivity analysis; tight gas reservoir; multi-fractured horizontal well (MFHW); unstable productivity model; productivity forecast; influencing factor analysis; horizontal well with multiple finite-conductivity fractures; elliptical-shaped drainage; productivity index; non-Darcy flow; pressure-dependent conductivity; reservoir properties; void space structure; porosity; permeability; complex rocks; NMR; MICP; CT; SEM; coal-bearing tight sandstone; organic-rich clasts; occurrence; classifications; formation mechanisms; Ordos Basin; hydraulic fracturing; fracturing fluids; fluids-rock interaction; environmental implication; history matching; semianalytic model; unconventional gas reservoirs; multistage fractured horizontal wells; fractal theory; tight sandstone; pore structure; heterogeneity; NMR measurements; multifractal analysis; shale reservoir; elastic properties; brittleness; rock physics; brittle spot identification; shale gas; reservoir characteristics; gas content; eastern Sichuan Basin; the Da’anzhai member; pulse decay method; gas adsorption; dual media; unconventional core; natural fracture; influencing factor; oil production; carbonate rock; basement reservoir; Jizhong Sub-basin; dynamic pore network modeling; shale reservoirs; water imbibition; hydraulic fracturing; discrete element method; modified fluid-mechanical coupling algorithm; injection sequence; well spacing; stress shadow effect; seismic location; microseismic events; waveform stacking; hydraulic fracturing; induced seismicity; CBM; surfactant; solid-free drilling fluid; CBM reservoir wettability; machine learning; lithofacies; umiat; well logs; Alaska; proppant transportation; cross fractures; CFD simulation; dimensional analysis; equilibrium proppant height; coalbed methane; Lattice Boltzmann method; gas diffusion; adsorption–desorption; pore-scale; clay minerals; pore structures; permeability; tight gas reservoirs; Xujiaweizi Rift; Northern Songliao Basin; methane adsorption isotherm; coal properties; machine learning; gradient boosting decision tree; estimation model; shale gas reservoir; geology; Gibbs excess adsorption; supercritical adsorption; gas viscosity; high voltage spark discharge; electrohydraulic effect; electrical conductivity; drilling; rock damage; pressure waves; water fracturing; turbulence effect; Eulerian multiphase modeling; proppant transport mechanism; equilibrium height prediction model; adaptive filtering; complex noise canceling; electromagnetic telemetry; shale gas; multifractured horizontal wells; production analysis; irregular stimulated region; natural gas hydrate; seismic modeling; fractional derivatives; numerical simulation; gas geochemical characteristics; noble gas; shale gas evolution; Large Igneous Province (LIP); heterogeneity; gas loss; coalbed methane; geological structure; gas controlling pattern; neutral surface; tectonic movement; Bumu region; seismic interpretation; depositional environments characteristics; Wheeler diagram; seismic attributes; heterogeneous sequence; sample size; neutron scattering; mercury injection capillary pressure; adsorption; shale; junggar basin; hong-che fault zone; carboniferous; volcanic reservoir; main controlling factors of hydrocarbon accumulation; fracture; vug; micro CT; carbonate; pore structure; wave velocity; amorphous SiO₂; X-ray diffraction; X-ray fluorescence spectrometry; scanning electron microscope; quantitative analysis; reservoir properties; hydraulic fracturing; void ratio; permeability; FEM; ABAQUS; shale reservoirs; matrix porosity; kerogen porosity; water saturation; well logs; gas hydrate; saturation; deep learning; recurrent neural network; molecular simulation; enhanced oil recovery; methane; shale; shale gas; tight oil; shale petroleum; technological development; patent; network analysis; imbibition; osmosis; unconventional formations; shale; EOR; hydraulic fracturing; water flooding