SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4312084410> ?p ?o ?g. }

Showing items 1 to 100 of ±125 with 100 items per page.

W4312084410 endingPage "127142" @default.
W4312084410 startingPage "127142" @default.
W4312084410 abstract "Common numerical solutions for production rate forecasting of shale reservoirs have a limited capability to describe the dynamics of fluid mass transfer during a pressure depletion cycle due to production with hydraulically fractured well systems. The pressure drawdown imposed by the well system triggers continuous expansion of free gas in the larger pores, while molecular diffusion predominates in the smaller pores. The declining reservoir pressure leads to the closure of larger pores, which gives further significance to molecular diffusion as a component of the mass transport process. To capture these multiphysics mechanisms, pressure-diffusion and molecular-diffusion forms of the diffusivity equation, discretized in space and time, were simultaneously solved to simulate mass transfer dynamics and kinematics in shale formations. This new approach uses a Gaussian probability function to describe the advance rate of both types of diffusion processes, creating a unique scheme for simulating shale gas reservoirs based on physical parameters that could be either measured or characterized. The adopted algorithms successfully provide solutions that can match the typical shale production profiles. Results are sensitive to the essential reservoir parameters of pressure depletion, matrix permeability, organic content, and local heterogeneity. The simultaneous solution of molecular and pressure diffusivity equations reveals their interdependencies. The production peaks early and then rapidly declines with a growing effect of pore compaction. The flux of the sorbed phase contributes to the production rate by some factor that is determined by the sorption capacity of the organic matter. The methodology provided in this study can be utilized to simulate mass transport in shale reservoirs and predict hydrocarbon production rates, which may greatly aid asset management decisions and maximization of the ultimate recovery." @default.
W4312084410 created "2023-01-04" @default.
W4312084410 creator A5014177485 @default.
W4312084410 creator A5034723430 @default.
W4312084410 creator A5080526944 @default.
W4312084410 creator A5087151830 @default.
W4312084410 date "2023-03-01" @default.
W4312084410 modified "2023-10-05" @default.
W4312084410 title "Multiscale and multiphysics production forecasts of shale gas reservoirs: New simulation scheme based on Gaussian pressure transients" @default.
W4312084410 cites W1580706216 @default.
W4312084410 cites W1970037416 @default.
W4312084410 cites W1982206027 @default.
W4312084410 cites W1986113254 @default.
W4312084410 cites W1986846946 @default.
W4312084410 cites W2001959072 @default.
W4312084410 cites W2007283787 @default.
W4312084410 cites W2019006773 @default.
W4312084410 cites W2038827290 @default.
W4312084410 cites W2092993625 @default.
W4312084410 cites W2093445429 @default.
W4312084410 cites W2095687398 @default.
W4312084410 cites W2118440258 @default.
W4312084410 cites W2140106093 @default.
W4312084410 cites W2159501187 @default.
W4312084410 cites W2267576270 @default.
W4312084410 cites W2289687969 @default.
W4312084410 cites W2295711279 @default.
W4312084410 cites W2321806955 @default.
W4312084410 cites W2336287975 @default.
W4312084410 cites W2401760647 @default.
W4312084410 cites W2470992493 @default.
W4312084410 cites W2531044531 @default.
W4312084410 cites W2537292983 @default.
W4312084410 cites W2554138535 @default.
W4312084410 cites W2562302451 @default.
W4312084410 cites W2602642446 @default.
W4312084410 cites W2744211947 @default.
W4312084410 cites W2775376909 @default.
W4312084410 cites W2787874873 @default.
W4312084410 cites W2894098376 @default.
W4312084410 cites W2941454555 @default.
W4312084410 cites W2963157298 @default.
W4312084410 cites W2974738282 @default.
W4312084410 cites W2997982971 @default.
W4312084410 cites W3014850804 @default.
W4312084410 cites W3016307674 @default.
W4312084410 cites W3033140040 @default.
W4312084410 cites W3077833416 @default.
W4312084410 cites W3142096388 @default.
W4312084410 cites W3167753727 @default.
W4312084410 cites W3170872237 @default.
W4312084410 cites W3173765922 @default.
W4312084410 cites W3184769630 @default.
W4312084410 cites W3200989990 @default.
W4312084410 cites W3210097026 @default.
W4312084410 cites W4225331164 @default.
W4312084410 cites W4253642444 @default.
W4312084410 cites W4283384993 @default.
W4312084410 cites W4290963826 @default.
W4312084410 cites W4292533761 @default.
W4312084410 cites W4295940596 @default.
W4312084410 doi "https://doi.org/10.1016/j.fuel.2022.127142" @default.
W4312084410 hasPublicationYear "2023" @default.
W4312084410 type Work @default.
W4312084410 citedByCount "3" @default.
W4312084410 countsByYear W43120844102023 @default.
W4312084410 crossrefType "journal-article" @default.
W4312084410 hasAuthorship W4312084410A5014177485 @default.
W4312084410 hasAuthorship W4312084410A5034723430 @default.
W4312084410 hasAuthorship W4312084410A5080526944 @default.
W4312084410 hasAuthorship W4312084410A5087151830 @default.
W4312084410 hasConcept C121332964 @default.
W4312084410 hasConcept C127313418 @default.
W4312084410 hasConcept C135628077 @default.
W4312084410 hasConcept C151730666 @default.
W4312084410 hasConcept C153127940 @default.
W4312084410 hasConcept C162324750 @default.
W4312084410 hasConcept C176217482 @default.
W4312084410 hasConcept C185592680 @default.
W4312084410 hasConcept C21547014 @default.
W4312084410 hasConcept C37668627 @default.
W4312084410 hasConcept C46435376 @default.
W4312084410 hasConcept C51038369 @default.
W4312084410 hasConcept C57736034 @default.
W4312084410 hasConcept C57879066 @default.
W4312084410 hasConcept C69357855 @default.
W4312084410 hasConcept C78762247 @default.
W4312084410 hasConcept C97355855 @default.
W4312084410 hasConceptScore W4312084410C121332964 @default.
W4312084410 hasConceptScore W4312084410C127313418 @default.
W4312084410 hasConceptScore W4312084410C135628077 @default.
W4312084410 hasConceptScore W4312084410C151730666 @default.
W4312084410 hasConceptScore W4312084410C153127940 @default.
W4312084410 hasConceptScore W4312084410C162324750 @default.
W4312084410 hasConceptScore W4312084410C176217482 @default.
W4312084410 hasConceptScore W4312084410C185592680 @default.
W4312084410 hasConceptScore W4312084410C21547014 @default.
W4312084410 hasConceptScore W4312084410C37668627 @default.