BEGIN:VCALENDAR VERSION:2.0 METHOD:PUBLISH PRODID:-//Tendenci - The Open Source AMS for Associations//Tendenci Codeba se MIMEDIR//EN BEGIN:VEVENT DESCRIPTION:--- This iCal file does *NOT* confirm registration.\r\nEvent d etails subject to change. ---\r\nhttps://www.spegcs.org/events/4120/\r\n\r \nEvent Title: Permian: Noble Energy Permian Case History - Continued Diag nostic Technology Integration with Completions\r\nStart Date / Time: Sep 1 8, 2018 11:30 AM US/Central\r\nLocation: Norris Westchase Center\r\nSpeake r: Justin Parker\r\nGoogle\r\nhttp://maps.google.com/maps?q=9990+Richmond+ Ave.,+Suite+102,Houston,Texas,77042\r\n\r\nForecast\nhttp://www.weather.co m/weather/monthly/77042\r\n\r\n Justin Parker with Noble Energy will share insight on how sound engineering, fracture modeling and data integration can increase recovery and optimize completions in the Wolfcamp and Bone Sp ring formations. Attendees working in the Delaware and Midland basins can readily apply specific learnings from this work to new completions. Additi onally, the methods and engineering principles presented in this talk will provide a basis-of-design to enhance productivity and well economics for horizontal wells in unconventional resources.\r\nThis talk is based off th e SPE paper #187253 presented at the ATCE 2017. Here is the full abstract for that paper:\r\nParker et. al., (2015), SPE 175535, presented an engine ered completion methodology utilizing diagnostic technology integration re lating to horizontal shale wells in the Delaware basin. That paper focused on technologies pertaining to hydraulic fracture design for the Wolfcamp A reservoir using a discrete fracture network (DFN) model for predicting f racture geometry, formation evaluation, oil tracers, microseismic monitori ng and production history matching. The final results of the paper showed that the application of an integrated technology approach provided the ope rator with a systematic method for designing, analyzing, and optimizing mu lti-stage/multi-cluster transverse hydraulic fractures in horizontal wellb ores. Since publishing the paper, the completion and fracture stimulation design methodology has been further extended with improved well performanc e.\r\nThis new work presents longer term well results from the original pa per and additional wells that have since been completed with design improv ements based on this process. Further technologies have since been added t o the completion processes which have enhanced well performance, including the application of rate transient analysis (RTA) analysis, applied post j ob engineering analytics (APJA), additional pressure history matching (PHM ) and post-fracture pressure matches to help refine the DFN model. The pur pose of this work will be to further outline the benefits of utilizing mul tiple diagnostic technology integration to design, analyze and optimize co mpletion and fracture stimulation design in the Wolfcamp shale. Detailed d iscussion related to created and propped fracture half-lengths, estimates of minimum conductivity, perforation design and cluster efficiency are pre sented. The value of diagnostic technology, EUR considerations and well ec onomics will also be addressed.\r\n \r\n \r\n \r\nThank you to our sponsor s!\r\n\r\nhttps://www.microseismic.com/\r\n \r\n\r\nhttps://www.weatherfor d.com/en/\r\n --- This iCal file does *NOT* confirm registration.Event det ails subject to change. ---\r\n\r\n--- By Tendenci - The Open Source AMS f or Associations ---\r\n UID:uid4120@spegcs.org SUMMARY:Permian: Noble Energy Permian Case History - Continued Diagnostic Technology Integration with Completions DTSTART:20180918T163000Z DTEND:20180918T180000Z CLASS:PUBLIC PRIORITY:5 DTSTAMP:20240329T154716Z TRANSP:OPAQUE SEQUENCE:0 LOCATION:Norris Westchase Center X-ALT-DESC;FMTTYPE=text/html:
& nbsp\;Justin Parker with Noble Energy will share insight on how sound engi neering, fracture modeling and data integration can increase recovery and optimize completions in the Wolfcamp and Bone Spring formations. Attendees working in the Delaware and Midland basins can readily apply specific lea rnings from this work to new completions. Additionally, the methods and en gineering principles presented in this talk will provide a basis-of-design to enhance productivity and well economics for horizontal wells in unconv entional resources.
This talk is based off the SPE paper #187253 pr esented at the ATCE 2017. Here is the full abstract for that paper:
Parker et. al., (2015), SPE 175535, presented an engineered completion me thodology utilizing diagnostic technology integration relating to horizont al shale wells in the Delaware basin. That paper focused on technologies p ertaining to hydraulic fracture design for the Wolfcamp A reservoir using a discrete fracture network (DFN) model for predicting fracture geometry, formation evaluation, oil tracers, microseismic monitoring and production history matching. The final results of the paper showed that the applicati on of an integrated technology approach provided the operator with a syste matic method for designing, analyzing, and optimizing multi-stage/multi-cl uster transverse hydraulic fractures in horizontal wellbores. Since publis hing the paper, the completion and fracture stimulation design methodology has been further extended with improved well performance.
This new work presents longer term well results from the original paper and additi onal wells that have since been completed with design improvements based o n this process. Further technologies have since been added to the completi on processes which have enhanced well performance, including the applicati on of rate transient analysis (RTA) analysis, applied post job engineering analytics (APJA), additional pressure history matching (PHM) and post-fra cture pressure matches to help refine the DFN model. The purpose of this w ork will be to further outline the benefits of utilizing multiple diagnost ic technology integration to design, analyze and optimize completion and f racture stimulation design in the Wolfcamp shale. Detailed discussion rela ted to created and propped fracture half-lengths, estimates of minimum con ductivity, perforation design and cluster efficiency are presented. The va lue of diagnostic technology, EUR considerations and well economics will a lso be addressed.
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Than k you to our sponsors!
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https://www.weather ford.com/en/
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