FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3157322381> ?p ?o ?g. }

• W3157322381 endingPage "19" @default.
• W3157322381 startingPage "1" @default.
• W3157322381 abstract "Volcanic gas reservoirs, as new exploration and development fields, are rich in resources and have broad exploration and development prospects. However, compared with the conventional sandstone gas reservoirs, volcanic gas reservoirs have more complex storage and permeability mode, with multiple media including pores, caves and fractures, which determines the strong heterogeneity, complicated seepage mechanisms, and difficult development of volcanic gas reservoirs. To further improve the prediction accuracy of fractured horizontal well productivity in volcanic gas reservoirs, Xushen low-permeability volcanic gas reservoirs are presented as examples herein using the equation of motion based on the principle of equal flow. Considering the stress-sensitive effect, starting pressure gradient, high-speed turbulence effect, and dual porous medium structure, as well as combining the nature of gas and real gas state equations, a gas–water two-phase productivity model is established for a matrix-natural fracture-artificial fracture-wellbore volcanic gas reservoir fractured horizontal well. In addition, factors affecting production are studied. Results indicate that stress-sensitivity coefficient of different media has different effects on the production. The natural-fracture stress-sensitive coefficient has the greatest influence on production. With the increase of the natural-fracture stress-sensitive coefficient, the gas production decreases and the reduction amplitude changes little, which is almost uniform. When natural-fracture stress-sensitive coefficient is 0.08, gas well production decreases by 14.24%. The second is the artificial main fracture stress-sensitivity coefficient. With the increase of the artificial main fracture stress-sensitivity coefficient, the decrease of gas production becomes larger. When artificial main fracture stress-sensitivity coefficient is 0.1, gas well production decreases by 6.6%. The matrix stress-sensitivity coefficient on production is the least, almost zero. The high-speed nonlinear coefficient significantly affected the production. With the increase of the high-speed nonlinear coefficient, the gas well production decreases, and the decrease rate is faster and faster. When the high-speed nonlinear coefficient increases to 10000 m−1, gas well production decreases by 45.65%. However, the starting pressure gradient had little effect on production. Finally, the model is verified by the actual production data of Xushen1-H2 well. The average errors of the gas production, water production, and pressure calculations are 9.65%, 9.63%, and 9.8%, respectively. This study contributes positively to the productivity prediction of fractured horizontal wells in low-permeability volcanic gas reservoirs." @default.
• W3157322381 created "2021-05-10" @default.
• W3157322381 creator A5000638314 @default.
• W3157322381 creator A5022356497 @default.
• W3157322381 creator A5044844890 @default.
• W3157322381 creator A5047895273 @default.
• W3157322381 creator A5053642825 @default.
• W3157322381 creator A5062116408 @default.
• W3157322381 creator A5085107743 @default.
• W3157322381 creator A5089069771 @default.
• W3157322381 date "2021-04-25" @default.
• W3157322381 modified "2023-09-23" @default.
• W3157322381 title "Gas–water two-phase productivity model for fractured horizontal wells in volcanic gas reservoirs with natural fractures" @default.
• W3157322381 cites W2002970864 @default.
• W3157322381 cites W2008522435 @default.
• W3157322381 cites W2066257999 @default.
• W3157322381 cites W2079015378 @default.
• W3157322381 cites W2150126594 @default.
• W3157322381 cites W2396642894 @default.
• W3157322381 cites W2800714877 @default.
• W3157322381 cites W2942642850 @default.
• W3157322381 cites W2991147249 @default.
• W3157322381 cites W2991974313 @default.
• W3157322381 cites W3017041297 @default.
• W3157322381 cites W3038638302 @default.
• W3157322381 cites W3100987767 @default.
• W3157322381 cites W3118889571 @default.
• W3157322381 cites W4244151137 @default.
• W3157322381 doi "https://doi.org/10.1080/15567036.2021.1914780" @default.
• W3157322381 hasPublicationYear "2021" @default.
• W3157322381 type Work @default.
• W3157322381 sameAs 3157322381 @default.
• W3157322381 citedByCount "1" @default.
• W3157322381 countsByYear W31573223812022 @default.
• W3157322381 crossrefType "journal-article" @default.
• W3157322381 hasAuthorship W3157322381A5000638314 @default.
• W3157322381 hasAuthorship W3157322381A5022356497 @default.
• W3157322381 hasAuthorship W3157322381A5044844890 @default.
• W3157322381 hasAuthorship W3157322381A5047895273 @default.
• W3157322381 hasAuthorship W3157322381A5053642825 @default.
• W3157322381 hasAuthorship W3157322381A5062116408 @default.
• W3157322381 hasAuthorship W3157322381A5085107743 @default.
• W3157322381 hasAuthorship W3157322381A5089069771 @default.
• W3157322381 hasConcept C113740612 @default.
• W3157322381 hasConcept C120806208 @default.
• W3157322381 hasConcept C120882062 @default.
• W3157322381 hasConcept C127313418 @default.
• W3157322381 hasConcept C17409809 @default.
• W3157322381 hasConcept C178790620 @default.
• W3157322381 hasConcept C185592680 @default.
• W3157322381 hasConcept C187320778 @default.
• W3157322381 hasConcept C2777447996 @default.
• W3157322381 hasConcept C2779096232 @default.
• W3157322381 hasConcept C41625074 @default.
• W3157322381 hasConcept C43369102 @default.
• W3157322381 hasConcept C55493867 @default.
• W3157322381 hasConcept C5900021 @default.
• W3157322381 hasConcept C59427239 @default.
• W3157322381 hasConcept C78762247 @default.
• W3157322381 hasConceptScore W3157322381C113740612 @default.
• W3157322381 hasConceptScore W3157322381C120806208 @default.
• W3157322381 hasConceptScore W3157322381C120882062 @default.
• W3157322381 hasConceptScore W3157322381C127313418 @default.
• W3157322381 hasConceptScore W3157322381C17409809 @default.
• W3157322381 hasConceptScore W3157322381C178790620 @default.
• W3157322381 hasConceptScore W3157322381C185592680 @default.
• W3157322381 hasConceptScore W3157322381C187320778 @default.
• W3157322381 hasConceptScore W3157322381C2777447996 @default.
• W3157322381 hasConceptScore W3157322381C2779096232 @default.
• W3157322381 hasConceptScore W3157322381C41625074 @default.
• W3157322381 hasConceptScore W3157322381C43369102 @default.
• W3157322381 hasConceptScore W3157322381C55493867 @default.
• W3157322381 hasConceptScore W3157322381C5900021 @default.
• W3157322381 hasConceptScore W3157322381C59427239 @default.
• W3157322381 hasConceptScore W3157322381C78762247 @default.
• W3157322381 hasLocation W31573223811 @default.
• W3157322381 hasOpenAccess W3157322381 @default.
• W3157322381 hasPrimaryLocation W31573223811 @default.
• W3157322381 hasRelatedWork W1984570377 @default.
• W3157322381 hasRelatedWork W1988041755 @default.
• W3157322381 hasRelatedWork W1999220836 @default.
• W3157322381 hasRelatedWork W2065991851 @default.
• W3157322381 hasRelatedWork W2093721927 @default.
• W3157322381 hasRelatedWork W2325750418 @default.
• W3157322381 hasRelatedWork W2389436456 @default.
• W3157322381 hasRelatedWork W4256137483 @default.
• W3157322381 hasRelatedWork W4294858617 @default.
• W3157322381 hasRelatedWork W4294859378 @default.
• W3157322381 isParatext "false" @default.
• W3157322381 isRetracted "false" @default.
• W3157322381 magId "3157322381" @default.
• W3157322381 workType "article" @default.