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Recent and Future Developments in Facilities Engineering By Kenneth E. Arnold

Recent and Future Developments in Facilities Engineering By Kenneth E. Arnold Paragon Engineering Services July 13, 2004. Paragon Engineering Services, Inc. History Job of a Production Facility Facilities Engineering Today Emerging Process Technology Project Management Technology.

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Recent and Future Developments in Facilities Engineering By Kenneth E. Arnold

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  1. Recent and Future • Developments in Facilities Engineering • By • Kenneth E. Arnold • Paragon Engineering Services • July 13, 2004 Paragon Engineering Services, Inc.

  2. History • Job of a Production Facility • Facilities Engineering Today • Emerging Process Technology • Project Management Technology

  3. Separator and Tank, Titusville, PA

  4. Oil & Gas Journal (June 24, 1937)

  5. First Test of Horizontal Two Phase Separator, 1940

  6. Offshore Field, 1940s

  7. Offshore Platform, 1950s

  8. Facilities Engineers • After World War II demand for: • Offshore facilities • High pressure gas production • Produced water treating • Heavy Oil Steam Floods • Led to: • More complex facilities • “Mechanical,” “Facilities” and “Construction” Engineering Departments introduced

  9. Facilities Engineering (1950s to 2000) • Money is made by discovering and exploiting reserves • Reservoir engineering and management are critical • Surface facilities are a necessary evil • This means: • Facilities engineering as recognized specialty didn’t even begin until 1960s • Recent emphasis on “core competence” led to elimination of facilities training and R&D efforts • Increased reliance on Engineering Companies to develop and implement design

  10. Facilities Engineering Today • But… good corporate citizenship puts emphasis on: • Safety • Environment • Design • Larger, more complex projects • Ten years ago – Hundreds of $1MM to $25MM projects • Now several $500MM – $2B projects • Facilities cost is becoming a large part of total field development cost • A $4.2B North Sea Field Development • Drilling - $1.0B 23 % • Topsides - $2.0B 47% • Hull - $0.8B 20% • Commissioning • & Operations Support - $0.4B 10%

  11. Facilities Engineering Today • Construction • Project cycle times significantly impact project profitability • Construction options limited • Construction execution plan critical to meeting profitability

  12. Emerging Process Technology • Improved Separator Internals • Use of CFD • Centrifugal Devices • Oil and water treating • De-oiling Hydrocyclones • De-watering Hydrocyclones • Multiphase Technology • Meters • Pumps • Absorption and Contact Towers • Improved Packing • Co-current Flow in Pipes

  13. Emerging Process Technology (Continued) • Subsea and Downhole Systems • Direct Water Injection/Disposal • Direct Gas Injection • Reduce Backpressure • Stranded Gas and Alternatives to Flaring for Associated Gas (Especially Offshore) • CNG Transportation • Gas to Methanol • Gas to Middle Distillates • Gas to Hydrates • Gas to Power

  14. Analysis of Operating Weights 75,000BOPD-GOM • Total Equipment Weight 5,832 tons • Excludes: Deck Structural Weight, Drilling Rig, Future Waterflood • Savings Possible by Eliminating Need for All: • HP, IP and LP Gas/Liquid Separation 2.6% x 1.5 = 3.9% • Bulk Oil/Water Separation 2.5% x 1.5 = 3.8% • Oil Treating 8.0% x 1.5 = 12.0% • Produced Water Treating 2.2% x 1.5 = 3.3% Total = 23%

  15. Choosing the Proper Technology – Innovative Process Technology • Each has applications and limitations depending on project specifics • It takes a knowledgeable engineer to apply this known technology correctly • New technology will help us reduce costs • There is no “magic bullet” process concept that will results in a significant decrease in facilities costs • But…. The way in which we manage a project has a potentially large impact on cost

  16. Best Practices Ind. Average Disasters -25 0 25 50 World Class Best Practices Cost Asset Growth Ref: Ed Merrow – IPA Cost Consistently Better -6% 10% 30% Underrun Overrun Managing Upstream Oil & Gas Producing Assets 17

  17. Best Practices Ind. Average Disasters World Class Best Practices Schedule Slip Ref: Ed Merrow – IPA Schedule Consistently Better 4% 10% 37% -25 0 25 50 75 Underrun Overrun Managing Upstream Oil & Gas Producing Assets 18

  18. Best Practices Ind. Average Disasters Underrun Overrun World Class Best Practices Schedule Slip Ref: Ed Merrow – IPA Operability Consistently Better 80% 73% 38% 10 35 60 85 110 Managing Upstream Oil & Gas Producing Assets 19

  19. Project Management Technology A Project Requires: • Basic Concept and Plan of Execution • Efficient Design • Appropriate Choice of Equipment • Simplicity • Procurement Plan • What to Buy • Where to Buy it From • Management of Interfaces • Quality Control • Expediting

  20. Project Management Technology (Continued) • Construction Plan • Contractor vs. Owner Supply • Managing Owner Supply • Site Management Between Contractors • Management of Interfaces • Safety Management • Quality Control • Expediting • Startup and Commissioning Plan • Mechanical Completion • Instrument Check-out • Initial Fall of Chemicals, etc. • Purge • Closeout

  21. Developing Project Management Technology • 1980s Engineering – Emphasis on Developing Training Materials and Automating Selection and Sizing of Equipment • Facilities Bookware Series (tutorials and sizing programs) • “Typical Facility Concept” (logic diagrams and standard P&ID modules) • 1980s Design • AutoCAD – 2D • 1990’s Engineering – Emphasis on Cost Estimating and Material Control • Automatic Time Entry and Billing • Estimating Tools and Databases • EMAC Procurement and Tracking Systems • 1990s Design • PDMS

  22. 1.0 (AutoCAD) 0.9 (PDMS) Drafting Engineering (PDMS) 0.8 0.7 (PDMS) 2 1 4 3

  23. Project Management Emphasis Today • Integration of Work Processes • ISO Certification • Codify work processes • Assure consistency • Audit • Full implementation of PDMS as design tool for all disciplines • Link in Engineering Work Processes (VPE) • Link in Smart P&ID (VPID) • Link in procurement and material control (VPRM) • More efficient design • Use design models for more effective human factors, operability and maintainability reviews

  24. Project Management-The Future • Utilize work processes, standards, “typicals” to automate and reduce engineering man-hours/ton. • Link multiple locations: design, fabrication, operations, maintenance. Take advantage of knowledge where it is. • Use database to help schedule maintenance, reduce operating costs and manage change. • Create a real time life cycle database.

  25. Conclusions • We’ve come along way • There are exciting new technologies becoming available • We have to use them wisely • New process technologies will surely help reduce costs and increase capabilities • Large impacts are possible by applying developing project management technologies

  26. How Does SPE Help Keep Facilities Technology Current • Publications • Conferences and Symposia • Forum Series • Applied Technology Workshops • Technical Interest Groups

  27. Types of Meetings • Annual Technical Conference and Exhibition (ATCE) – F & C Programming Committee • Regional Meetings & Symposia – Region plans and manages under SPE Meetings Policy. Held periodically • Applied Technology Workshop (ATW) – Limited attendance focused on latest applications of a specific technology. One or two days with no formal papers. • Forum Series – Brings together experts on specific topics to focus on future aspects. Usually one week with no formal papers • Section Meeting – Held on periodic basis for benefit of section members. Often scheduled for lunch or dinner. • Joint Meeting – Offshore Technology Conference

  28. Future Programming • Facilities and Construction Committee • Local Chapter Facility Study Group • Facilities and Construction Volunteer Database

  29. Future Programming • Join SPE • www.SPE.org • Choose facilities and construction technical discipline • Work with local section to develop F & C programming • Work with Local Section to encourage more F & C membership – operators, vendors, consultants and contractors • Volunteer to help with SPEI programming – Email me your interests Karnold@paraengr.com • List your interests (Level 2 of TIL) and your expertise (Level 3 of TIL)

  30. SPE’s Technical Interest List • Process Systems and Equipment - 22 Sub-Categories • Gas Utilization - 3 Sub-Categories • Measurement and Control - 6 Sub-Categories • Electrical Systems - 9 Sub-Categories • Pipelines and Piping Design - 6 Sub-Categories

  31. SPE’s Technical Interest List • Material and Corrosion - 5 Sub-Categories • Solids Handling and Control - 5 Sub-Categories • Platforms and Floating Systems - 13 Sub-Categories • Subsea Systems - 5 Sub-Categories • Facilities Operations - 7 Sub-Categories • Facilities and Construction • Project Management - 7 Sub-Categories

  32. Conclusions • The Facilities and Construction specialty is important • This is a field that is growing in importance and complexity • SPE has programming in place to help F & C engineers • SPE wants to expand this programming

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