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W2891075305 abstract "Abstract As ultra-tight porous media that include organic contents, shale gas resources are technically known as complex systems having various mechanisms that impact storage and flow. The slippage, Knudsen diffusion, the process of desorption, an adsorbed layer that affects apparent permeability, and solute gas in kerogen are recognized to be the most important ones. However, simultaneous effects of multi-mechanism flow and storage, and influences of scattered organic contents on shale gas flow behaviour are not well-understood yet. According to the mass conservation law, a basic mathematical model has been developed to investigate, step-by-step, the effects of different changes that are introduced, and examine whether patterns of how kerogen is distributed affect the production plateaus. The discretization of the second-order nonlinear Partial Differential Equation (PDE) that is evolved results in a certain number of nonlinear simultaneous algebraic equations, which are conventionally solved with the application of Newton’s method. To overcome the inherent difficulties of the initial guess, the derivations, and the inversion of the Jacobian matrix, a new application of Particle Swarm Optimization (PSO) as a nonlinear solver was applied to extract the anticipated pressure profile for each step in time outside the bounds of the reference equations. The results show that not only can the PSO effectively meet the required criteria, but also it performed faster than conventional techniques, especially in cases with a larger number of grids that encompass more phenomena. It was further revealed that the insertion of a multi-mechanism apparent permeability model in which the pore radius is also a pressure-dependent parameter causes the lower rate of production. A higher level of production has been recorded after including storage terms of adsorption and solute gas in kerogens. Although different patterns of kerogen distribution have finally overlapped, the different taken trend of each production profile underlines the impact of kerogen distribution as an important parameter within the procedure of history matching." @default.
W2891075305 created "2018-09-27" @default.
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W2891075305 date "2019-01-01" @default.
W2891075305 modified "2023-10-04" @default.
W2891075305 title "A novel approach for solving nonlinear flow equations: The next step towards an accurate assessment of shale gas resources" @default.
W2891075305 cites W1186966557 @default.
W2891075305 cites W1547237253 @default.
W2891075305 cites W1712887680 @default.
W2891075305 cites W1857552492 @default.
W2891075305 cites W1966799339 @default.
W2891075305 cites W1968467714 @default.
W2891075305 cites W1968816676 @default.
W2891075305 cites W1976553449 @default.
W2891075305 cites W1981194975 @default.
W2891075305 cites W1981636025 @default.
W2891075305 cites W1986846946 @default.
W2891075305 cites W1993288443 @default.
W2891075305 cites W1995263602 @default.
W2891075305 cites W1996084863 @default.
W2891075305 cites W1998486620 @default.
W2891075305 cites W2001959072 @default.
W2891075305 cites W2002845616 @default.
W2891075305 cites W2008079295 @default.
W2891075305 cites W2009656120 @default.
W2891075305 cites W2011174140 @default.
W2891075305 cites W2013134255 @default.
W2891075305 cites W2019006773 @default.
W2891075305 cites W2030281554 @default.
W2891075305 cites W2034849564 @default.
W2891075305 cites W2038679989 @default.
W2891075305 cites W2039493126 @default.
W2891075305 cites W2045469795 @default.
W2891075305 cites W2049849727 @default.
W2891075305 cites W2052045241 @default.
W2891075305 cites W2053526959 @default.
W2891075305 cites W2054841844 @default.
W2891075305 cites W2061871963 @default.
W2891075305 cites W2063202157 @default.
W2891075305 cites W2071079582 @default.
W2891075305 cites W2071771565 @default.
W2891075305 cites W2078492239 @default.
W2891075305 cites W2079726980 @default.
W2891075305 cites W2092010659 @default.
W2891075305 cites W2092952629 @default.
W2891075305 cites W2093445429 @default.
W2891075305 cites W2105314466 @default.
W2891075305 cites W2144311271 @default.
W2891075305 cites W2152133194 @default.
W2891075305 cites W2155051757 @default.
W2891075305 cites W2198488453 @default.
W2891075305 cites W2209826423 @default.
W2891075305 cites W2227186012 @default.
W2891075305 cites W2253164550 @default.
W2891075305 cites W2267576270 @default.
W2891075305 cites W2278752302 @default.
W2891075305 cites W2285902904 @default.
W2891075305 cites W2396650294 @default.
W2891075305 cites W2401760647 @default.
W2891075305 cites W2521310966 @default.
W2891075305 cites W2611140180 @default.
W2891075305 cites W2753852530 @default.
W2891075305 cites W2766566065 @default.
W2891075305 cites W3160245480 @default.
W2891075305 cites W4244384548 @default.
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W2891075305 doi "https://doi.org/10.1016/j.fuel.2018.08.157" @default.
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