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Energistics SIGs, Work Groups and Program Management Update: PRODML / WITSML / GUWI

Energistics SIGs, Work Groups and Program Management Update: PRODML / WITSML / GUWI. Energistics Western Europe Region & SIG Meeting NPD Stavanger, Norway 17 June 2008. Presentation Outline. WITSML Drilling Data Exchange & Web Services Standards WITSML SIG PRODML

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Energistics SIGs, Work Groups and Program Management Update: PRODML / WITSML / GUWI

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  1. Energistics SIGs, Work Groups and Program Management Update:PRODML / WITSML / GUWI Energistics Western Europe Region & SIG Meeting NPD Stavanger, Norway 17 June 2008

  2. Presentation Outline • WITSML • Drilling Data Exchange & Web Services Standards • WITSML SIG • PRODML • Production Data Exchange & Web Services Standards • PRODML SIG and PRODML Work Group 2008 • GUWI Initiative • Well Identity Standards & Services • Asset & Data Management SIG and WIS Work Group • Other Initiatives <WITSML/> <PRODML/> 2

  3. Basics • Principles • Success is delivering value to industry through collaborative efforts of members • Value is focused on increasing operational efficiency <WITSML/> <PRODML/> 3

  4. Basics • Major Initiatives • Associated with E&P subject areas within Special Interest Groups (SIGs) • May be accelerated to achieve specific goals with Work Groups (WGs) operating inside SIGs • Objectives for initiatives are expressed through value-oriented, multi-year use case road maps <WITSML/> <PRODML/> 4

  5. Basics • Challenges: Learn how to … • Align vision with business strategic objectives • “Strategic Standards Management” • Define progression of capabilities leading to vision • “Competency Maturity Models” • Help members deploy widely and achieve value • “Awareness, Adoption, and Deployment Planning” • Quantify deployment progress and value received • “Value Measurement Methodology” <WITSML/> <PRODML/> 5

  6. Energistics Membership and SIGs Board of Directors Management & Staff Membership Advisory Council SIGs are standardsuser communities PRODML SIGParticipants WITSML SIG Data Management SIG Other SIGs Energistics Standards:WITSML, PRODML, etc.

  7. Energistics Subject Areas Asset & DataManagementSIG eRegulatory SIG • Industry Services SIG • Technical Architecture • Energy Identity Trust AssetManagement IntegratedReservoirModelingSIG Reservoir Reservoir Production Production Geology SIG Engineering Engineering Geology Geology Expl Expl Petrophysics Petrophysics Petroleum Petroleum Geology Geology Engineering Engineering Drilling Drilling Production Production Facilities Facilities Facilities SIG (n/a) Engineering Engineering Engineering Engineering Engineering Engineering Completion & Drilling Drilling Completion & Production Production Geophysics Workover Operations Geophysics Operations Workover Operations Operations Geophysics SIG WITSML SIG PRODML SIG

  8. WITSML (Drilling)

  9. WITSML™ – WWW.WITSML.ORG “The ‘right-time’ seamless flow of well-site data between operators and service companies to speed and enhance decision-making” Open Information Transfer and Web Services Standards for the Oilfield Wellsite Information Transfer Standard Markup Language

  10. What is WITSML ? • WITSML is a Web Services framework for moving drilling data between rig and office-based computer systems. • Context: • Internet • XML Schema • Web Services • Openly available to all to implement. • www.energistics.org • www.witsml.org • Hosted by Energistics • User community is the WITSML Special Interest Group

  11. WITSML Special Interest Group Members • A set of Data Exchange and Web Services Standards • First published in 2001 • Version 1.4 due in Q3 • 50+ Companies • Hosted and Facilitated by Energistics • Semi-annual Events

  12. Next Major WITSML Events Location: Dubai UAE SIG Working Meetings: Nov. 16-18 Public Seminar & Vendor Exhibition: Nov. 19 Host Organization: Sponsorships Available

  13. WITSML Data Objects / XML Schemas • General • Well • Message • Operations Report • Real Time • Wellbore • Wellbore Geometry • Risk • ChangeLog • Communication • Subscription • Server Capabilities • Rig Instrumentation • Rig / Rig Equipment • Cement Job • Fluids Systems • Fluids Report • Surface Logging • Mud Log • Coring • Sidewall Core • Conventional Core • Surveying • Survey Program • Target • Trajectory • Directional Drilling Systems • Tubular / • Bit Record • BHA Run • Logging While Drilling • Log  Well Log (includes Wireline) • Formation Marker • Completion • Completion • Original Updated Added Source: BakerHughes/Paradigm

  14. WITSML Public Web Site

  15. Product Certification Program KSI (2) LIOS (1) Kongsberg(3) Geologix (1) INT (1) Petrolink (4) … HRH… Petris

  16. Product Certification Program • First Level Server Testing Capability • Launch by year-end • Testing WITSML Server Products • Testing Program Consists of • Server Test Software • Testing Scripts/Queries • Test Data • Expected Results 16

  17. User Registration Program • Open for WITSML User Organizationsthat are Energistics Members • Launched at May 2008 WITSML Meetings • User Profile • Use Policy in Place • Use Cases Supported(real-time acquisition, other acquisition, field data control, field analysis, transfer from field to office, office analysis, completion processes, intervention processes, production processes, other) • Types of Products Used (Client Producer, Client Consumer, Server, etc.) • Data Objects Used and How Used(well, wellbore, realtime, wellLog, rig, etc.)(read, write, etc.) 17

  18. Stage 1 Planning Stage 5/6: Release Stage 8: Audit Stages 2-5: Development Stage 6,7: Deployment WITSML Timeline Years 2000-2001 2002-2003 2004-2005 2006-2007 2008-2009 2010-2011 Version 1.0 Version 1.1 Version 1.2 Version 1.3.0 Version 1.3.1 Version 1.3.1.1 Version 1.4 Version 1.4.1 Version 1.5 or 2.0

  19. WITSML: Strategic Challenges[May 2007, Paris] • Increase from Early Adopter to Full Deployment • Increase the number of data objects in use • Put Completion data object to use • Address automation, QC, integration needs • Address workovers, maintenance (interventions) • Address analytical, decision-making processes • Study and upgrade to current SOA/WS/W3C • Study and align with PRODML and external standards • Address bi-directional data flows, i.e. to the drilling site

  20. Drilling Data Architecture (with WITSML)

  21. Simplicity Achieved through Consistent data element and structure definitions and semantics Consistent interfaces among cooperating software components Integration Achieved through the ability to Compare and Combine Data from multiple diverse sources. Simplicity and Integration

  22. What are WITSML Benefits for BP? • Simplify the award of contracts to service companies • Enable remote working and automation • Encourage adoption of multi-service-company solutions • Speed up deployment of technical applications • Improve health, safety, and environmental factors • Improve operational efficiency • Help address the “big crew change”

  23. What are WITSML Benefits for Total? • More secure data streaming from rig to office • Improve wellsite geology and surveillance • Pore pressure analysis, mudlogging, etc. • Improve data quality and accessibility • Integrated data sharing: drilling-production (PRODML™) • Enables future technology evolution at minimum costs • Well seismic, wired-pipe, etc.

  24. What are WITSML Benefits for StatoilHydro? • WITSML and WITSML-based processes and products can make it cost effective to implement complex and challenging business cases • Complexity of the physical environment • Diversity of service companies involved • WITSML can be a catalyst to the identification of new business opportunities Largest well in the Troll field superimposed over Bergen (to scale)

  25. What are WITSML Benefits for Shell? Moves Data effortlessly, neutrally Enables real-time data flows Supports well planning and design Combining expertise leads to optimal well delivery Office staff involved in well execution Reduction of personnel on the rig Improved partner reporting Timely, high quality exchange of data without restriction on how that data is used or interpreted

  26. WITSML Summary • WITSML is ready to deliver value for you today. • Embed WITSML as part of your real-time data architecture • Use WITSML to get the right data to the right person • Real-time validation and optimization to improve drilling performance • Improve reporting quality with less effort • Demonstrate value from WITSML usage and expand scope of use

  27. PRODML (Production)

  28. PRODML™ – WWW.PRODML.ORG “The ‘right-time’ seamless flow of production data among optimization, reporting and management processes.” Open Information Transfer and Web Services Standards for producing fields. Production [Data Transfer] Markup Language <PRODML/>

  29. What is PRODML ? • PRODML is a Web Services framework for moving production data among analytical and reporting components. • Context: • Internet • XML Schema • Web Services • Openly available to all to implement. • www.energistics.org • www.prodml.org • Hosted by Energistics • User community is the PRODML Special Interest Group

  30. PRODML Special Interest Group Members • A set of Data Exchange and Web Services Standards • First published in 2006 • Version 1.1 due in Q3 • ~30 Companies • Hosted and Facilitated by Energistics • Quarterly Workshops • First Public Tutorial in May 2008

  31. WITSML Data Objects / XML Schemas • Flow Network Topology (Product Flow Model) • Production and injection wells, equipment, etc. • Static Model of Flow connections: outlet to inlet • Measurements (Production Volume Report) • Production volumes and flow rates • Pressures, temperatures, etc. • Test results (Well Test) • Production Activity Report • Distributed Temperature Survey

  32. PRODML Public Site

  33. PRODML Background • Boom in highly instrumented fields. Energy companies keen to exploit opportunity for better use of near real-time data in optimal operation of assets. (aka “Digital Oilfield” etc.) • Current landscape is fragmented – multiple commercial and in-house tools • Efficient means of interoperability between these tools is essential for more efficient workflows

  34. Types of PRODML Applications • Operational Modeling • Predict future measurements from history and operational plans • Allocation and Reconciliation • Derive critical values from measurements, as in back-allocation • Surveillance and Monitoring • Continuous comparison of actual to predicted measurements • Simulation and Optimization • Predict future measurements and set points to achieve objectives • Advisory and Alert • Invoked when predicted and actual performance differ significantly

  35. PRODML – Material Progress 2006-08 • A common language for production data has been created • Commercial application has commenced, eg: • Production Reporting (Statoil) • Waterflood management (Chevron) • DTS data management (Weatherford) • First Commercial Applications (Schlumberger) • R&D Proofs of Concept have been substantial: • Gas Lift Optimisation • Downhole sensors • 2,000 well dataset transfers • Network Model changes moving between applications

  36. PRODML: Addresses Key Area of Asset Management High Frequency Low Frequency Sensor Data Geoscience Data SCADA Systems Reservoir Models OPC Domain De facto Standards Application A Application B Application C Application etc. PRODML Domain Drilling Systems Maintenance Systems WITSML Domain Maintenance Domain Business Processes After Chevron, ExxonMobil 30 2006 PRODML Initial Scope 2010 2008 Many Production Applications THE SOLUTION PRODML Open Standards THE PROBLEM Multiple Component Solutions Lack of Interoperability standards

  37. PRODML Focus: Production OptimizationRoadmap in place: 2 1/2 more years to industry standard PRODML Focus Timeline: Daily Surveillance and Reporting Timeline: Weekly Production Management Timeline: Field Optimisation Timeline: Field Development Planning Business Processes Low Frequency High Frequency 30

  38. PRODML: Current Activities • Release of Version 1.1 • Technical work closed • Now preparing “release candidate” material • Followed by reviews and Release in Q3 • Post-Version 1.1 Infrastructure Additions • Initiated in 2007 after a technical review with vendors • More efficient and flexible data access methods for time critical interactions • Authoritative source of production component identities

  39. PRODML: Current Activities • Work Group ‘08 Candidate Field Deployment Projects • Chevron (Nodal Analysis Well Modeling, NOJV Partner Reporting) • ConocoPhillips (NOJV Partner Reporting) • ExxonMobil (NOJV Partner Reporting) • ONGC {with BG} (NOJV Partner Reporting) • Pioneer (Reporting) • Shell (NOJV Partner Reporting) • StatoilHydro (NOJV Partner & Regulatory Reporting, Field Optimization) • Total (Artificial Lift & Well Test Validation),

  40. Stage 1 Planning Stage 5/6: Release Stage 8: Audit Stages 2-5: Development Stage 6,7: Deployment PRODML Timeline Years 2000-2001 2002-2003 2004-2005 2006-2007 2008-2009 2010-2011 WG06 + Version 1.0 WG07 Version 1.1 WG08 + Version 2.0 WG09 Version 2.1 WG10 Version 2.2

  41. Sub-set of Horn Mountain: PI Historian data: June 2nd to June 10th Three gas lift wells The purpose was to test PRODML not the Technical applications PRODML Interactions (Web Services) Plug & Play Applications (OSIsoft or Kongsberg Consolidator) Pilot overview: Four phases Monitor: Gas lift gas rates from the PI Historian Alert: Trigger based on minimum gas lift gas available value Optimize: Run optimizer - Triggered by user manual inputs Report: Report optimizer results BP PRODML Pilot Implementation 41

  42. Chevron PRODML Pilot Implementations Based on a large “old” waterflood field Concentrating on water handling Providing a number of vendor opportunities Developing in-house capability Expanding in scope over time 2006: Compared actual vs. forecasts; 1700 wells 2007: Forecasting, Managing Capacity, Optimizing Field Network, Visualizing Cross-Functional Data 2008: Refine “plug-n-play”, Testing Post V1.1 Capabilities, NOJV Partner Reporting, Well Modeling Nodal Analysis using Drilling Data

  43. Shell PRODML ’07 Pilot Implementation • DTS (Distributed Temperature Sensing) gives a continuous temperature profile along a well • One way to improve accuracy is to reconcile the DTS profile to a single point-source temperature sensor • Energy company assets can have DTS and PT sensors from multiple vendors • A standardized method to transfer raw and calibrated DTS logs To/From a DTS database as well as point temperature readings - typically from a well-agnostic process historian is beneficial • In case there is a need to change the DTS or PT sensors, this can be done seamlessly without affecting the subsequent process flows

  44. Work Group ’08: Types of Projects • Field Deployment Project • Led by an energy company • Target is deployment in a particular field • Product Development Project • Led by a product supplier • Target is a potential commercial product • Both • Ideally have ~ 25% of scope in “new capabilities” for PRODML • Can lead to 1 or more WG08 Res & Dev Activities • To test proof of concept for “new capabilities” • Can invite participation from companies – with opportunity for compensation.

  45. PRODML Summary • PRODML can deliver value for you today: selectively • Embed PRODML (and WITSML) in data architecture • Use PRODML to get the right data to applications through Web Services • Real-time optimization components • Improve reporting quality with less effort • Demonstrate value from PRODML usage and expand scope of use • Expand deployments of same types of optimization • Expand to new types of optimization

  46. GUWI Initiative

  47. Well Identity Standards & Services • Began at PNEC in 2003 • to address the long-standing global well identification problem. • Taken forward by an industry steering team • focused on an industry-marketplace solution • Strategy: • Previously proprietary identifiers  industry standards • Contracted Well Identity Services • Registration/Assignment of new identifiers • Official source data provision and release into a publicly accessible industry dataset • Search/Match

  48. Anticipated Benefits • Direct cost savings • Reduced effort to manage well/wellbore identity registration, query, and conflict resolution • Indirect cost savings • Fewer instances of redoing work necessitated by the discovery of a well/wellbore identity problem • Reduced effort to perform data integration • Improved efficiency of Acquisition & Divestiture activities • Etc.

  49. User Service Fee Structure • User Service Fees • Access to industry dataset: no fee • Search/Match transactions: • Free for up to 90; thereafter 20 USD • Industry Accessibility transactions: • Free for up to 120; thereafter 40 USD • Minimum total fee: 500 USD per quarter • Negotiated fees for large quantities

  50. Sponsorship and Industry Cost Structure • Industry Sponsorship Costs (initial cost) • 50% of 2008 Contributing Member dues • Entitlement to join the WIS Work Group • Must also join the Asset & Data Management SIG • Additional sponsorship costs as needed • Industry Service Costs (quarterly basis) • Fixed-fee for general processing and maintenance activities • 2.4k USD • Transaction based fees to pay for ‘free’ services • Search/Match transactions: 150 minimum, 1200 maximum • Industry Accessibility transaction: 120 minimum, 1080 maximum

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