Dynamic Asset Management (DYNAM) Functional System Design DYNAM1 is a Dynamic Life Cycle Assessment Model for Wind & Aqua Farming Synergy DYNAM1 ‘field of interest’
Final version, 17-12-2014 Powered by
Blauwdruk Requirements 1. Windfarm analysis: hele park kan aangepast worden aan de parameters (voor meerjarig onderhoud). 2. Analyse: voordelen kunnen bekeken worden a.d.h.v. verschillende parameters 3. Year Scenario’s LCA: verschillende settings zijn mogelijk. 4. Zichtbaar maken van kosten die voortkomen uit de jaarscenario’s. 5. LCA data: Sale Prices worden gegenereerd. 6. Prijsstijgingen [met (on)zekerheids marges] kunnen gemoduleerd worden. 7. Technische en financiële data van het park kunnen geanalyseerd worden. Een nieuwe factor is het ‘Synergy Percentage’. Met dit % wordt aangegeven in welke mate de O&M kosten van de Wind Farm kunnen worden gereduceerd door minder wachttijd t.l.v. de Wind Farm te laten komen (uit publicaties (2005-2012) blijkt dit in die tijd rond de 30% te zijn) In huidige situaties is er bijvoorbeeld sprake van 40-50% tijdverlies door; transitkosten, slechte afstemming, wachttijden, dus een synergievoordeel van 10% zou al een hele verbetering zijn! Resultaat: berekenen van revenuen, system cost-effectiveness, market value, return of investment én grafieken waarin dit wordt weergegeven op basis waarvan e.e.a. kan worden geoptimaliseerd door aanpassingen van het LCM plan en dit opnieuw te simuleren. Powered by
Ref.: verschillende Blauwdruk afstemmeetings.
LCA Data per Life Cycle Year Period Blue text: TOR is pre memoire (PM) or in development
Logistics/ Maintenance Model -
Per Activity: -
Period Labor Cost Material Cost Other Cost
LCC Matrix YS Excel Sheets LCM Baseline Sheets Risk Matrix & Register (PM) Environmental Impact Sheets (PM) - ………
Operational Environment Model
Asset LCM Model (AMICO2)
Operational Utilization Model
Year Periods ≤ 1 Year:
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LIFE CYCLE
Operational Environment Impact Factor per Installation/Component (PM) - Temperature load factor - Humidity load factor - Dust/Salt/Chemical load factor - Terrain/Sea/Sky load factor - ……..
LCA Business Model
Per Period: -
Cost System Effectiveness Cost Drivers Performance Killers
Operational Utilization Impact Factor per Installation/Component (PM) - Duration load factor - Peak load factor - Usage load factor - Enforce load factor - ………
-
Return of Investment Value of Performance Asset Market Value Total Cost of Ownership System Cost-Effectiveness Environmental Impact (PM) (most likely, max. and min. result): Trend Indication of External Factors ………….
END
Context Diagram LCM Team
System of Interest
External Systems
Energy Demand from Company
Asset Owner
1.000x50.000 Wind Fish Farm
Asset Manager
Power Distribution from Shore Mussel Unload factoring
Service Providers
Financial Environment
Technical Environment
North Sea
Eco System
Environment(s) Powered by
Climate System
Law & Regulators
System Identification Diagram 1.000x50.000 Wind Fish Farm Maintenance Systems Condition Monitoring
Maintenance
Wind Farm
Mussel Farm
Electrical Grid and Distribution System
Long Lines Nautical Navigation Systems
Wind Turbines
Foundations
Foundations
Buoys
Installations
Transport Systems Vessels Cable to Shore
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Power Distribution from Shore
Mussel Harvest & Transport
Mussel Unload factoring & Distribution
Socks
Wind Fish Farm Outline The WFF exists of: 5 wind clusters of 10x4 km each, with 40x5 MW wind turbines 4 fish clusters of 10x4 km each, with 40x20x3=2.400 mussel long line systems 4 main shipping lanes of 1 km wide.
14 km
32 km
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Wind Farm Outline incl. Auxiliary Systems 10 km
~ 5 x 50 km Wind Farm Grid Subsea Cable
1x Wind Farm Sub Station
4 x Wind Farm Meteo and Nav. Mast
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4 km
5 x 40 5MW Wind Turbine Incl. Foundation
Mussel Farm Cluster Outline The Mussel Farm Cluster exists of: 2.400 mussel long line systems of 100m long placed in lines of 4 km 150 m minimum wide of shipping lanes between the lines 5-10 tons production of mussel per system per year 12.000-24.000 tons production per cluster per year
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Transport System Offshore Wind and Fish Farming Support Ship (capable to operate in 3 meters significant wave height) Main Dimensions Length Length over all Molded breadth Least molded depth Mean operating draught Displacement Block coefficient
Symbol Lpp LOA B D T Δ Cb
Value 66.69 70.00 13.20 6.00 3.44 2365 0.78
Unit m m m m m m3 -
Motion Compensated Crane Boom length Operating luff angle Max motion compensated lift Max non-motion compensated lift Overall Mass Installed Power pack Construction
26.0m 60° 3 t @ all 13t @ 13m 22 t 2*200 kW Aluminum/Steel
Wilco Stavenuiter, 2009
Deck load: 12x20 ft. containers (Mussels/Spares) Accommodation: 50 persons. The accommodation is applied with as much as possible double cabins to improve the comfort when the accommodation is not completely filled. Dimensioning of the accommodation is guided by the SBM accommodation standard and the NMD and ILO C133 code. At least it should comply with SOLAS. Estimated CAPEX: 20-30 M€ Powered by
Transport Container Support System 24x20 ft. containers in an ideal mix of mussel and spare part transportation
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Estimated Cost (price level 2013)
CAPEX (10 yr. depr.)
OPEX (anual)
Special equipped Mussel Transport Container
€ 15.000,-
€ 1.000,-
Special equipped Spare Part Container
€ 10.000,-
€
500,-
Subsea Power Cable Subsystem Data Date: 2009
http://www.nationalgrid.com/NR/rdonlyres/62196427-C4E4-483E-A43E-85ED4E9C0F65/39230/ODISAppendicesFinal_0110.pdf
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Control Portal (home page)
DYNAM1 ‘field of interest’
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Asset Portal Page
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LCM Diagrams: 1. Asset Control & Cost Overview
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LCM Diagrams: 2. Revenues, Profit & Market Value
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LCM Diagrams: 3 System Cost Effectiveness Overv.
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Balance Sheets OK!
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Attribute List update for terms used in DYNAM (http://amcdev02:29219/Dgame/Asset%20Pages/Attribute%20List%20Page.aspx)
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