TY - GEN AU - Cai,Jianchao AU - Singh,Harpreet AU - Zhang,Zhien AU - Kang,Qinjun TI - Flow and Transport Properties of Unconventional Reservoirs 2018 SN - books978-3-03921-117-3 PY - 2019/// PB - MDPI - Multidisciplinary Digital Publishing Institute KW - shale gas KW - permeability KW - prediction by NMR logs KW - matrix–fracture interaction KW - faults KW - remaining oil distributions KW - unconventional reservoirs KW - coal deformation KW - reservoir depletion KW - carbonate reservoir KW - nanopore KW - fracturing fluid KW - pseudo-potential model KW - shale reservoirs KW - matrix-fracture interactions KW - multi-scale fracture KW - succession pseudo-steady state (SPSS) method KW - fluid transport physics KW - integrated methods KW - chelating agent KW - dissolved gas KW - non-equilibrium permeability KW - effective stress KW - fractal KW - fracture network KW - spontaneous imbibition KW - tight oil KW - porous media KW - 0-1 programming KW - the average flow velocity KW - geothermal water KW - micro-fracture KW - pore types KW - pore network model KW - petrophysical characterization KW - nitrogen adsorption KW - analysis of influencing factors KW - mudstone KW - rheology KW - velocity profile KW - shale permeability KW - flow resistance KW - global effect KW - tight sandstones KW - fractal dimension KW - contact angle KW - temperature-resistance KW - fractured well transient productivity KW - reservoir classifications KW - deep circulation groundwater KW - viscosity KW - NMR KW - fractional diffusion KW - lattice Boltzmann method KW - multiporosity and multiscale KW - fractal geometry KW - imbibition front KW - productivity contribution degree of multimedium KW - wetting angle KW - pH of formation water KW - enhanced oil recovery KW - isotopes KW - tight sandstone KW - fracture diversion KW - shale KW - SRV-fractured horizontal well KW - low-salinity water flooding KW - shale gas reservoir KW - tight reservoirs KW - fracture continuum method KW - tight oil reservoir KW - Lucaogou Formation KW - hydraulic fracturing KW - clean fracturing fluid KW - recovery factor KW - flow regimes KW - local effect KW - complex fracture network KW - pore structure KW - gas adsorption capacity KW - polymer KW - non-linear flow KW - conformable derivative KW - production simulation KW - analytical model KW - enhanced geothermal system KW - multi-scale flow KW - experimental evaluation KW - extended finite element method KW - fluid-solid interaction KW - groundwater flow KW - well-placement optimization KW - thickener KW - imbibition recovery KW - equilibrium permeability KW - slip length KW - large density ratio KW - clay mineral composition KW - finite volume method KW - volume fracturing KW - influential factors KW - sulfonate gemini surfactant N1 - Open Access N2 - Unconventional reservoirs are usually complex and highly heterogeneous, such as shale, coal, and tight sandstone reservoirs. The strong physical and chemical interactions between fluids and pore surfaces lead to the inapplicability of conventional approaches for characterizing fluid flow in these low-porosity and ultralow-permeability reservoir systems. Therefore, new theories and techniques are urgently needed to characterize petrophysical properties, fluid transport, and their relationships at multiple scales for improving production efficiency from unconventional reservoirs. This book presents fundamental innovations gathered from 21 recent works on novel applications of new techniques and theories in unconventional reservoirs, covering the fields of petrophysical characterization, hydraulic fracturing, fluid transport physics, enhanced oil recovery, and geothermal energy. Clearly, the research covered in this book is helpful to understand and master the latest techniques and theories for unconventional reservoirs, which have important practical significance for the economic and effective development of unconventional oil and gas resources UR - https://mdpi.com/books/pdfview/book/1441 UR - https://directory.doabooks.org/handle/20.500.12854/47767 ER -