TY - BOOK ID - 64931100 TI - Development of Unconventional Reservoirs PY - 2020 SN - 3039285815 3039285807 PB - MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - horizontal well KW - shale gas KW - shock loads KW - pseudo-steady-state non-equilibrium sorption KW - unsteady state non-equilibrium sorption KW - porosity–permeability KW - fractured-vuggy reservoirs KW - flow channel KW - pressure derivative KW - total organic carbon (TOC) KW - CO2 huff-n-puff KW - flow behavior KW - unconventional reservoirs KW - semi-analytical model KW - gravel pack KW - optimization measures KW - fractures KW - lab tests under reservoir condition KW - dual-porosity system KW - unconventional KW - gravity differentiation KW - MICP KW - perforation safety KW - fracture penetration extent KW - organic-rich shale KW - stress-dependent permeability KW - equilibrium sorption KW - helium porosimetry KW - numerical model KW - original gas in-place KW - shale alteration KW - injection and production pattern KW - adsorption and desorption isotherms KW - low-pressure gas adsorption KW - initial water saturation KW - drilling fluid KW - sorption hysteresis KW - coalbed methane KW - gas content KW - capillary number KW - reorientation fractures KW - water flooding effect KW - organic pores KW - tight reservoir KW - condensate recovery KW - Langmuir pressure KW - Klinkenberg slippage theory KW - limestone and calcareous mudstone interbedding KW - petrophysics KW - tight gas sand KW - numerical analysis KW - northern Guizhou KW - wettability KW - peak pressure KW - sand control KW - water imbibition KW - clay bound water KW - carbon dioxide sequestration KW - adsorption capacity KW - gas compressibility factors KW - convolutional neural network KW - multi-stage fracturing horizontal wells KW - fractured tight reservoir KW - physical model KW - tight gas reservoirs KW - automatic classification KW - NMR KW - catalytic oxidation characteristics KW - micro-CT image KW - wellbore stability KW - gas adsorption and desorption KW - gas shale KW - medium volatile bituminous coal KW - hydraulic flow units KW - GEM® KW - petrophysical properties KW - compositional 3D KW - rock-water-CO2 interaction KW - source-mixed gas KW - residual gas distribution KW - oxidation reaction pathway KW - coal rank KW - oil migration KW - clay content KW - perforated string KW - TOC recovery KW - Computer Modelling Group (CMG) KW - capillary trapping KW - pore size distribution KW - adsorption KW - tight reservoirs KW - well interference KW - gradation optimization KW - shale gas condensate reservoir KW - Niutitang formation KW - pulse decay test KW - well testing KW - Langmuir model KW - methane adsorption capacity KW - pore structure KW - and tight sand gas) KW - ultra-deep well KW - deepwater well KW - orthogonal test KW - high pressure and low flowrate KW - theoretical model KW - safety analysis KW - transient pressure KW - catalyst-activated low temperature oxidation KW - reservoir simulation KW - Langmuir volume KW - air flooding KW - petrography KW - total organic carbon KW - electrical resistivity KW - diffusion coefficient KW - equation of state KW - porosity KW - zeta potential KW - gas permeability measurement KW - co-exploitation KW - nuclear magnetic resonance KW - Changqing tight oil KW - visual experiment KW - tight oil reservoirs KW - caprock integrity KW - coal measure gases (coalbed gas KW - NIST-Refprop UR - https://www.unicat.be/uniCat?func=search&query=sysid:64931100 AB - 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. ER -