FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2001337477> ?p ?o ?g. }

• W2001337477 abstract "Abstract With the emergence of liquid rich shale (LRS) plays like Eagle Ford and Northern Barnett, the petroleum industry needs a simple, easily applied technique that provides reliable estimates of future production rates in this kind of reservoir. There is no guarantee that methodology that has proved to work in gas reservoirs will necessarily be appropriate in LRS reservoirs. In this work, we found that without corrections of early data, the Stretched Exponential Production Decline (SEPD) model, designed for transient flow, usually produces pessimistic forecasts of future production. The Duong method, another transient model, may be reasonable during long term transient linear flow, but notably optimistic after boundary-dominated flow (BDF) appears. For wells in BDF, the Arps model provides reasonable forecasts, but the Arps model may not be accurate when applied to transient data. A hybrid of early transient and later BDF models proves to be a reasonable solution to the forecasting problem in LRS. In addition, use of diagnostic plots (like log-log rate-time and log-log rate-material balance time plots) improves confidence in flow regime identification and production forecasting. In some LRS's, BDF is observed within 12 months. In any case, it is essential to identify or to estimate the time to reach BDF and to discontinue use of transient flow models after BDF appears or is expected. We validated our methodology using hindcast analysis; that is, matching the first half of production history to determine model parameters, then forecasting the second half of history and comparing to observed production data. We also found that application of pressure-corrected rates in decline curve analysis (DCA) may substantially improve the interpretation of data from unconventional oil wells flowing under unstable operating conditions. Fetkovich (hydraulically fractured well) type curve analysis can be added to improve confidence in flow regime identification from diagnostic plots and to estimate the Arps hyperbolic exponent b from the matching b stem on the type curve, which can then be extrapolated to determine estimated ultimate recovery." @default.
• W2001337477 created "2016-06-24" @default.
• W2001337477 creator A5052228255 @default.
• W2001337477 creator A5053048863 @default.
• W2001337477 date "2014-05-19" @default.
• W2001337477 modified "2023-09-27" @default.
• W2001337477 title "Utility of Hybrid Forecasting Models and Diagnostic Plots in Liquid Shales" @default.
• W2001337477 cites W1963770974 @default.
• W2001337477 cites W1968171516 @default.
• W2001337477 cites W1970037416 @default.
• W2001337477 cites W1984862921 @default.
• W2001337477 cites W1996800808 @default.
• W2001337477 cites W1998748246 @default.
• W2001337477 cites W2003109678 @default.
• W2001337477 cites W2013288320 @default.
• W2001337477 cites W2020401335 @default.
• W2001337477 cites W2041929868 @default.
• W2001337477 cites W2043974102 @default.
• W2001337477 cites W2049866007 @default.
• W2001337477 cites W2063833653 @default.
• W2001337477 cites W2069970580 @default.
• W2001337477 cites W2157054472 @default.
• W2001337477 doi "https://doi.org/10.2118/169871-ms" @default.
• W2001337477 hasPublicationYear "2014" @default.
• W2001337477 type Work @default.
• W2001337477 sameAs 2001337477 @default.
• W2001337477 citedByCount "5" @default.
• W2001337477 countsByYear W20013374772015 @default.
• W2001337477 countsByYear W20013374772016 @default.
• W2001337477 countsByYear W20013374772017 @default.
• W2001337477 countsByYear W20013374772021 @default.
• W2001337477 crossrefType "proceedings-article" @default.
• W2001337477 hasAuthorship W2001337477A5052228255 @default.
• W2001337477 hasAuthorship W2001337477A5053048863 @default.
• W2001337477 hasConcept C127313418 @default.
• W2001337477 hasConcept C149782125 @default.
• W2001337477 hasConcept C162324750 @default.
• W2001337477 hasConceptScore W2001337477C127313418 @default.
• W2001337477 hasConceptScore W2001337477C149782125 @default.
• W2001337477 hasConceptScore W2001337477C162324750 @default.
• W2001337477 hasLocation W20013374771 @default.
• W2001337477 hasOpenAccess W2001337477 @default.
• W2001337477 hasPrimaryLocation W20013374771 @default.
• W2001337477 hasRelatedWork W103424482 @default.
• W2001337477 hasRelatedWork W1608323894 @default.
• W2001337477 hasRelatedWork W1986433037 @default.
• W2001337477 hasRelatedWork W2035357862 @default.
• W2001337477 hasRelatedWork W2036412496 @default.
• W2001337477 hasRelatedWork W2091186046 @default.
• W2001337477 hasRelatedWork W2154731174 @default.
• W2001337477 hasRelatedWork W2292884515 @default.
• W2001337477 hasRelatedWork W2302516575 @default.
• W2001337477 hasRelatedWork W2552437864 @default.
• W2001337477 hasRelatedWork W2571709902 @default.
• W2001337477 hasRelatedWork W2747814606 @default.
• W2001337477 hasRelatedWork W2748076979 @default.
• W2001337477 hasRelatedWork W2749360342 @default.
• W2001337477 hasRelatedWork W2768283874 @default.
• W2001337477 hasRelatedWork W2778163047 @default.
• W2001337477 hasRelatedWork W2788435287 @default.
• W2001337477 hasRelatedWork W2790649454 @default.
• W2001337477 hasRelatedWork W2883902959 @default.
• W2001337477 hasRelatedWork W3133267349 @default.
• W2001337477 isParatext "false" @default.
• W2001337477 isRetracted "false" @default.
• W2001337477 magId "2001337477" @default.
• W2001337477 workType "article" @default.