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Technical and Economic Analysis for Far Offshore Wind Farm Accommodation Nick Chung Ioannis Karakitsos Godstime Martins Pablo Morato Dominguez Olga Uflewska.

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Presentation on theme: "Technical and Economic Analysis for Far Offshore Wind Farm Accommodation Nick Chung Ioannis Karakitsos Godstime Martins Pablo Morato Dominguez Olga Uflewska."— Presentation transcript:

1 Technical and Economic Analysis for Far Offshore Wind Farm Accommodation Nick Chung Ioannis Karakitsos Godstime Martins Pablo Morato Dominguez Olga Uflewska Source: http://pixshark.com/offshore-wind-farm-sunset.htm

2 Methodology Our Work Conclusion Outline  Project Overview  Methodology  Our Work  Conclusion

3 Methodology Our Work Conclusion Determine the best maintenance support solution leading to a reduction of O&M costs for Far Offshore Wind Farms Achieved by: Examining Technical Feasibility and Economical Viability Creating a Interactive Tool Analysing Costs (O&M) of each Solution Comparing the Solutions Objective

4 Methodology Our Work Conclusion Round 3 – More Wind Potential More Energy – Wind Technologies Problems – Weather Conditions – Deeper Waters – More Expensive Our Scope – Focus on O&M Source: https://www.ewea.org/fileadmin/files/library/publications/statistics/European_offshore_statistics_2012.pdf 2002 to 2012, Consented and Planned 600 to 0 MW 0 to 50m, Water Depth 120 to 0 km Source: http://www.ewea.org/fileadmin/files/library/publications/reports/Deep_Water.pdf Why Far Offshore?

5 Methodology Our Work Conclusion Why Offshore Accommodation? Advantages Travelling less Comfort for technicians More time to work Downtimes reduced Disadvantage Cost of Vessels

6 Methodology Our Work Conclusion Solutions Source: http://www.renewableenergyfocus.com/view/15310/offshore- wind-farm-maintenance-vessel-designed/ Source: http://soefart.dk/?art=5987 Source: http://www.hssb.dk/en/news/two-new-semi- swath-catamarans.asp Crew Transfer Vessel Mothership Jack-Up

7 Methodology Our Work Conclusion No Offshore Accommodation Advantages – Fast – Cost to Charter Disadvantages – Cannot Travel Far – Number of CTVs Required – No Major Maintenance

8 Methodology Our Work Conclusion Mothership and CTV Advantages – Accommodation – Possible to Access Turbine – Room for Storage Disadvantages – No Large Replacements – Cost

9 Methodology Our Work Conclusion Jack-up and CTV Advantages – Large Replacements – Storage Disadvantages – Slow Moving – Set-up time – Cost

10 Project Overview Our Work Conclusion Methodology Corrective Maintenance O&M breaks to

11 Project Overview Our Work Conclusion O&M breaks to Downtimes due to failures Decrease in power production Preventive Maintenance Corrective Maintenance Methodology Major concern: Working hours Major concern: Working hours

12 Project Overview Our Work Conclusion O&M breaks to Downtimes due to failures Decrease in power production Preventive Maintenance Corrective Maintenance Methodology Major concern: Working hours Major concern: Working hours Small repairs Large repairs CTV Jack-up Required to access site

13 Project Overview Our Work Conclusion Methodology ( Corrective Analysis) Failures categorised per severity (Failures per year per turbine) Failures categorised per severity (Failures per year per turbine) Repair, cleaning, replacement of consumables Small Parts Large Parts> 50 tonnes Rotor, nacelle, yaw, main bearing replacement Cleaning, No replacements Small Repairs Large Repairs

14 Project Overview Our Work Conclusion Methodology ( Corrective Analysis) Failures categorised per severity (Failures per year per turbine) Failures categorised per severity (Failures per year per turbine) Repair, cleaning, replacement of consumables Small Parts Large Parts> 50 tonnes Rotor, nacelle, yaw, main bearing replacement Cleaning, No replacements Times spent in each category (h) Times spent in each category (h) * Small Repairs Large Repairs Travel Time Logistic Time Weather delay Repair time

15 Project Overview Our Work Conclusion Methodology ( Corrective Analysis) Failures categorised per severity (Failures per year per turbine) Failures categorised per severity (Failures per year per turbine) Repair, cleaning, replacement of consumables Small Parts Large Parts> 50 tonnes Rotor, nacelle, yaw, main bearing replacement Cleaning, No replacements Total Downtimes Small and large repairs (days per year) & Times spent in each category (h) Times spent in each category (h) * = Small Repairs Large Repairs Travel Time Logistic Time Weather delay Repair time

16 Project Overview Our Work Conclusion Methodology (Preventive Analysis) Total days required within limit? Increase CTV number YES NO Inputs: -Travel time from shore -Time among turbines -Technicians -Total days required per turbine Inputs: -Travel time from shore -Time among turbines -Technicians -Total days required per turbine Outputs: -Working hours -Days per year required -CTV needed Outputs: -Working hours -Days per year required -CTV needed Example: 150 turbines 150 km with 2 CTVs would take 282 days to complete Instead 4 CTVs have to be used

17 Project Overview Our Work Conclusion Methodology SolutionPreventive and small replacements Large ReplacementsOther parameters No Offshore Accommodation Travelling with CTV from shore. Jack-up on the spot- market Larger vessel needed for distance > 60 nm Mothership Travel time ≈ 0, & less number of CTV used Jack-up on the spot- market More flexible (less weather delay time) Cheaper than jack-up Jack-up Travel time ≈ 0, & less number of CTV used Decreased downtimes since logistic times ≈ 0 Cost reduction comparing when rented in spot market

18 Project Overview Methodology Conclusion Environmental Impacts *CTV: Transit speed condition, Mother-ship & Jack-Up: Standby condition Jack-up operation Source:http://www.maritimejournal.com/news101/marine-civils/port,-harbour-and-marine- construction/dutch_jv_begins_installation_work_on_offshore_wind_turbine_project

19 Project Overview Methodology Conclusion Source:http://www.safety4sea.com/pcg-and-crew-response-to-bunker-spill-in-the-philippines-13447 Environmental Impacts

20 Project Overview Methodology Conclusion Main purpose To choose the best support solution for each analysis performed

21 Project Overview Methodology Conclusion Features -Flexible -Large range of options -User friendly Modify Inputs

22 Project Overview Methodology Conclusion FOWIT O&M Tool Inputs

23 Project Overview Methodology Conclusion Main Outputs Minimum cost solution Maximum cost solution Selection 2 solutions FOWIT O&M Tool

24 Project Overview Methodology Conclusion Main Outputs Cost Analysis Graph Cumulative cost over the years FOWIT O&M Tool

25 Project Overview Methodology Conclusion Detailed Outputs for each solution Indicative graph FOWIT O&M Tool

26 Project Overview Methodology Conclusion Intermediate results Specific figures Detailed Outputs for each solution FOWIT O&M Tool

27 Project Overview Methodology Conclusion (1) Introduce inputs FOWIT O&M Tool

28 Project Overview Methodology Conclusion (2) Click Calculate FOWIT O&M Tool

29 Project Overview Methodology Conclusion (3) Choose potential solutions FOWIT O&M Tool

30 Project Overview Methodology Conclusion (4) Cost Analysis Graph is displayed * Lifetime: 25 years FOWIT O&M Tool

31 Project Overview Methodology Conclusion (5) Graph is automatically updated * Lifetime: 10 years FOWIT O&M Tool

32 Project Overview Methodology Conclusion Sensitivity Analysis No of Wind Turbines Distance Logistic Times Fatigue Rates Vessel Costs Weather Delays Lifetime of the project Sharing Turbine capacity Days limit per year

33 Project Overview Methodology Conclusion No of Wind Turbines Distance Logistic Times Fatigue Rates Vessel Costs Weather Delays Sharing Turbine capacity Days limit per year Lifetime of the project Sensitivity Analysis

34 Project Overview Methodology Conclusion NOA-No Offshore AccommodationMS- Mother-ship JU- Jack 2050100150 40NOA MS 100NOA MS 200NOAJU Turbines Distance from shore Sensitivity Analysis (1)

35 Project Overview Methodology Conclusion No of Wind Turbines200 Distance20 Base CaseNOA Lifetime increasesJack-up No of Wind Turbines100 Distance50 Base CaseNOA Failure Rates IncreaseJack-up Sensitivity Analysis (2)

36 Project Overview Methodology Conclusion No of Wind Turbines200 Distance50 Base CaseJack up Higher WT CapacityMother-ship No of Wind Turbines100 Distance50 Option without sharingNOA Sharing Option (50%)Jack-up Sensitivity Analysis (3)

37 Project Overview Methodology Conclusion Website

38 Methodology Our Work Conclusions No ‘ultimate’ solution Technical parameters of a wind farm changes choice of a solution will change FOWIT - a valuable addition to the decision making process

39 Thank you ! Academic Supervisor: Dr. Mahdi Khorasanchi Technical and Economic Analysis for Far Offshore Wind Farm Accommodation Source: http://pixshark.com/offshore-wind-farm-sunset.htm

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