1、Authors:Robert Walker(AECOM),BrianWyatt(CCL)Date:25/03/2024Reference:PN000535-RPT-007Status:PublicFLOATING OFFSHORE WIND CENTRE OF EXCELLENCEFOW COATINGS,CORROSIONPROTECTION ANDMANAGEMENTPublic Summary ReportFOW Coatings,Corrosion Protection and Management Public Summary Report25-Mar-2024ORE Catapul

2、tPubliciPN000535-RPT-007 Rev 1DISCLAIMERWhilst the information contained in this report has been prepared and collated in good faith,ORECatapult and the authors of this report make no representation or warranty(express or implied)as tothe accuracy or completeness of the information contained herein

3、nor shall we be liable for any lossor damage resultant from reliance on same.DOCUMENT HISTORYRevisionDatePrepared byChecked byApproved byRevision HistoryRev 125 Mar 2023Robert Walker(AECOM),BrianWyatt(CCL)Sean SneeColin GilfillanFOW Coatings,Corrosion Protection and Management Public Summary Report2

4、5-Mar-2024ORE CatapultPubliciiPN000535-RPT-007 Rev 1EXECUTIVE SUMMARYThis report has been prepared to strengthen the Floating Offshore Wind(FOW)industrysunderstanding of corrosion protection and management as relevant to the substructures of FloatingOffshore Wind Turbines(FOWTs)within the marine env

5、ironment of the UK Exclusive Economic Zone(EEZ)via:a State-of-the-Art(SoA)review of corrosion protection and management as relevant to thesubstructures of Floating Offshore Wind Turbines(FOWTs)made of both structural steel andsteel reinforced concrete located within the UK Exclusive Economic Zone(EE

6、Z),anda Whole-Life-Costing(WLC)exercise for two reference locations within the UK EEZ to comparevarious Classification Society(CS)code-compliant corrosion protection scenarios for a steelfloating semi-sub substructure.The conclusions of the SoA study are that due to the level of maturity of the indu