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Co-ordinated floating systems team work A test case on applying the TCP to offshore design

Co-ordinated floating systems team work A test case on applying the TCP to offshore design Enhancing European maritime collaboration through service and technology transfer A European Maritime Day event– 22/05/2014. Overview. Example Atkins Oil & Gas design project Why is this Relevant?

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Co-ordinated floating systems team work A test case on applying the TCP to offshore design

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  1. Co-ordinated floating systems team work A test case on applying the TCP to offshore design Enhancing European maritime collaboration through service and technology transfer A European Maritime Day event– 22/05/2014

  2. Overview • Example Atkins Oil & Gas design project • Why is this Relevant? • Case Study Development • Survey and Results • Conclusions

  3. Example Oil & Gas design Project

  4. Example Atkins Design Project Patent Pending - Reference GB2507370 • Design of a Compact Floating Production and Storage vessel. • Vessel Displacement ~70,000 Te. • Client interested in several different topside variants and operating locations. * Topside VCG is above the top deck

  5. Sizing

  6. Analysis Geometry Creation

  7. Hydrodynamic Analysis

  8. Stability Analysis

  9. The Hull Design / Arrangement Patent Pending - Reference GB2507370

  10. Why Is This Relevant?

  11. Typical Oil & Gas Design Projects • Work across many different disciplines: • Sizing and weight control • Structural design • Stability analysis • Hydrodynamic analysis • Marine Engineering • E.t.c. • Requirement to maintain consistent design information • Potential interactions with external parties: • Model testing facilities • Topside and process design • Subcontracting consultants/SMEs • Desire / need to find new & better solutions • E.g.–UK oil & gas which is currently uneconomical to extract estimated at 3-4mill boeor £200billion. • Is there a technological solution from a European SME?

  12. Co-ordinated team work in Design • Example of coordinating teamwork in an offshore design • Focused on a novel solution (recently patented) • Demonstrate how the TCP tool could assist team in development and integration of different systems/technologies • Considerable similar use by a range of SME and others parties

  13. TCP Case Study Question: Do we need something like the TCP? Where could we improve? Question: Would the TCP assist in co-ordinating work across the team?

  14. CASE STUDY DEVELOPMENT

  15. Basis of Design Data [.xls] Weight Control (excel) Weights [.xls] Sizing (excel) Tank details [.xls] Key Geometry Dimensions, Weight [.xls] Hydro- dynamic analysis (AQWA) Finite element modeller (ICEM) Surface mesh aqwa [.dat] Surface mesh generic [.?] Hullform Surface [.SAT] Motions results [.?] Hydro-dynamic analysis (HydroD/ PostRESP) HyroD Mesh [.T3] Motions results [.LIS] Hullform modelling for Hydro analysis (GEniE) Loads results [.?] HyroD Mesh [.T1] Stability analysis (HydroD) Stability results [.xls] StructuralMesh [.?] Code check (SESAM-SESTRA) FE Structural Analysis Tool(SESAM-SESTRA) Stresses [.?] Pass/Fail Summary [.xls] 1st Pass Structural Design (excel) Grillage Analysis1 (MathCAD?) Structural Definition [.xls] Pass/Fail Summary [.xls] Grillage Analysis2 (DNVTools) Pass/Fail Summary [.xls] Layout and Geometry model (Inventor) 3-D Model [?] 2D Drawings [.dwg] 2D Figures [.png]

  16. Basis of Design Data [.xls] Weight Control (excel) Weights [.xls] Sizing (excel) Sizing and Weight Control Tank details [.xls] Key Geometry Dimensions, Weight [.xls] Hydro- dynamic analysis (AQWA) Finite element modeller (ICEM) Surface mesh aqwa [.dat] Surface mesh generic [.?] Hullform Surface [.SAT] Hydrodynamic Analysis Motions results [.?] Hydro-dynamic analysis (HydroD/ PostRESP) HyroD Mesh [.T3] Motions results [.LIS] Hullform modelling for Hydro analysis (GEniE) Loads results [.?] HyroD Mesh [.T1] Stability analysis (HydroD) Stability results [.xls] Stability Analysis StructuralMesh [.?] Code check (SESAM-SESTRA) FE Structural Analysis Tool(SESAM-SESTRA) Stresses [.?] Pass/Fail Summary [.xls] Structural Analysis 1st Pass Structural Design (excel) Grillage Analysis1 (MathCAD?) Structural Definition [.xls] Pass/Fail Summary [.xls] Grillage Analysis2 (DNVTools) Pass/Fail Summary [.xls] Layout and Geometry model (Inventor) General Arrangement 3-D Model [?] 2D Drawings [.dwg] 2D Figures [.png]

  17. Note - Case study implemented in Strathclyde Universities VIP tool

  18. Case Study Guide

  19. Survey & Results

  20. Surveys

  21. Pre-Case Study Survey Results

  22. Post-Case Study Survey Results

  23. Conclusions

  24. Conclusions • Survey responses suggest that the TCP tool has potential to improved working practices across small organisation. • Results identified areas for potential development – Most clear would be the provision of documentation through the TCP to explain/detail network functions. • The TCP could provide SME (and others!) with a glass box – where the working is open and apparent – but this is dependent on sufficient documentation to enhance understanding and allow SMEs to develop/improve their engineering process to improve the European maritime sectors competiveness.

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