FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3170473676> ?p ?o ?g. }

• W3170473676 abstract "Abstract The Sichuan shale gas deposits are in remote, mountainous regions and the gas-bearing rocks are deep and in tectonically complicated areas. The plan to make shale gas account for more than 40% of the Chinese total natural gas production by 2040 requires shorter well delivery periods and higher well productions. It is therefore crucial to improve the overall drilling efficiency with the limited rig capability and geological challenges. To improve capital efficiency, a multi-disciplinary approach integrating subsurface understanding with well engineering and drilling practices was implemented. Central to this drilling optimization effort are risk mitigation strategies, utilizing solutions based on robust geomechanical understanding and critical drilling experience reviews, engineered to improve wellbore placement, drilling fluid formulation, and bit and BHA designs. A novel wellbore-strengthening oil-based mud system was implemented to maintain shale stability. A rotary steerable drilling system and reservoir navigation technology were deployed together with the application of specific poly-crystalline diamond compact (PDC) bit design. A new-generation advanced cuttings analysis method was also applied with the lithology, organic matter and fracability of rock could be evaluated in real time to assist the reservoir navigation during the drilling. This integrated solution was deployed in the drilling of 8 ½ holes of Changning Shale gas field. A cross-functional team was formed so that the operator, the drilling contractor and the service company can collaborate closely with expertise across multiple functions and disciplines. Suitable mud weight was provided by the detailed geomechanical analysis to account for the high pore pressure and near bed-parallel drilling conditions. To place the laterals in the thin targeted sub-layer with high TOC, a rotary steerable system (RSS) with azimuthal GR provide not only precise steering and directional controls, but also enable increased reservoir coverage by expanding the lateral section as well as drilling the build and horizontal sections in a single run without BHA trips. The combination of RSS with specialized bits as an optimized bit and BHA system maximizes the steering performance while delivering superior borehole quality by reducing drill string vibration and the minimizing mechanical specific energy, all of which contribute to the overall improvement in the well delivery efficiency. This integrated drilling solution has achieved remarkable results by doubling the average rate of penetration (ROP) to 15.5m/h compared to an offset well on the same pad of 7.4m/h. The well was placed successfully in the targeted zone with a 100% reservoir contact. And the total drilling time was shortened by 40% compared to similar wells nearby. The integrated solution has brought breakthrough to improve the well delivery efficiency in the China shale gas development. This paper describes the integrated workflow solutions and detailed technical optimizations of the 8 ½ section drilling process." @default.
• W3170473676 created "2021-06-22" @default.
• W3170473676 creator A5000780560 @default.
• W3170473676 creator A5011355125 @default.
• W3170473676 creator A5036456628 @default.
• W3170473676 creator A5037604733 @default.
• W3170473676 creator A5044757881 @default.
• W3170473676 creator A5044840648 @default.
• W3170473676 creator A5048949228 @default.
• W3170473676 creator A5070607404 @default.
• W3170473676 creator A5086436903 @default.
• W3170473676 creator A5088215418 @default.
• W3170473676 date "2021-06-04" @default.
• W3170473676 modified "2023-09-27" @default.
• W3170473676 title "Integrated Workflow Solutions Deliver Breakthrough in Sichuan Shale Gas Drilling" @default.
• W3170473676 cites W2064022544 @default.
• W3170473676 cites W2321401523 @default.
• W3170473676 cites W2897454577 @default.
• W3170473676 cites W3129929825 @default.
• W3170473676 doi "https://doi.org/10.2118/201043-ms" @default.
• W3170473676 hasPublicationYear "2021" @default.
• W3170473676 type Work @default.
• W3170473676 sameAs 3170473676 @default.
• W3170473676 citedByCount "1" @default.
• W3170473676 countsByYear W31704736762023 @default.
• W3170473676 crossrefType "proceedings-article" @default.
• W3170473676 hasAuthorship W3170473676A5000780560 @default.
• W3170473676 hasAuthorship W3170473676A5011355125 @default.
• W3170473676 hasAuthorship W3170473676A5036456628 @default.
• W3170473676 hasAuthorship W3170473676A5037604733 @default.
• W3170473676 hasAuthorship W3170473676A5044757881 @default.
• W3170473676 hasAuthorship W3170473676A5044840648 @default.
• W3170473676 hasAuthorship W3170473676A5048949228 @default.
• W3170473676 hasAuthorship W3170473676A5070607404 @default.
• W3170473676 hasAuthorship W3170473676A5086436903 @default.
• W3170473676 hasAuthorship W3170473676A5088215418 @default.
• W3170473676 hasConcept C127313418 @default.
• W3170473676 hasConcept C127413603 @default.
• W3170473676 hasConcept C151730666 @default.
• W3170473676 hasConcept C152068911 @default.
• W3170473676 hasConcept C153127940 @default.
• W3170473676 hasConcept C16674752 @default.
• W3170473676 hasConcept C177212765 @default.
• W3170473676 hasConcept C25197100 @default.
• W3170473676 hasConcept C2779538338 @default.
• W3170473676 hasConcept C41008148 @default.
• W3170473676 hasConcept C42222113 @default.
• W3170473676 hasConcept C69378780 @default.
• W3170473676 hasConcept C77088390 @default.
• W3170473676 hasConcept C78519656 @default.
• W3170473676 hasConcept C78762247 @default.
• W3170473676 hasConceptScore W3170473676C127313418 @default.
• W3170473676 hasConceptScore W3170473676C127413603 @default.
• W3170473676 hasConceptScore W3170473676C151730666 @default.
• W3170473676 hasConceptScore W3170473676C152068911 @default.
• W3170473676 hasConceptScore W3170473676C153127940 @default.
• W3170473676 hasConceptScore W3170473676C16674752 @default.
• W3170473676 hasConceptScore W3170473676C177212765 @default.
• W3170473676 hasConceptScore W3170473676C25197100 @default.
• W3170473676 hasConceptScore W3170473676C2779538338 @default.
• W3170473676 hasConceptScore W3170473676C41008148 @default.
• W3170473676 hasConceptScore W3170473676C42222113 @default.
• W3170473676 hasConceptScore W3170473676C69378780 @default.
• W3170473676 hasConceptScore W3170473676C77088390 @default.
• W3170473676 hasConceptScore W3170473676C78519656 @default.
• W3170473676 hasConceptScore W3170473676C78762247 @default.
• W3170473676 hasLocation W31704736761 @default.
• W3170473676 hasOpenAccess W3170473676 @default.
• W3170473676 hasPrimaryLocation W31704736761 @default.
• W3170473676 hasRelatedWork W12415718 @default.
• W3170473676 hasRelatedWork W13406460 @default.
• W3170473676 hasRelatedWork W28027311 @default.
• W3170473676 hasRelatedWork W43957683 @default.
• W3170473676 hasRelatedWork W47773188 @default.
• W3170473676 hasRelatedWork W49686658 @default.
• W3170473676 hasRelatedWork W56249773 @default.
• W3170473676 hasRelatedWork W64787982 @default.
• W3170473676 hasRelatedWork W82606309 @default.
• W3170473676 hasRelatedWork W59399736 @default.
• W3170473676 isParatext "false" @default.
• W3170473676 isRetracted "false" @default.
• W3170473676 magId "3170473676" @default.
• W3170473676 workType "article" @default.