Ocean Energy Systems

This website is sponsored by OES (Ocean Energy Systems); an intergovernmental collaboration between countries, which operates under framework established by the International Energy Agency (IEA).

The goals of this website is to store & present relevant information from ICOE conferences (documents, papers, presentations) and make it available in the future. Furthermore this website informs of upcoming ICOE conferences.

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Point absorbersImpulse turbineSubsea connection solutionsWave power generationWave energy converterMaintenanceTCP (Tidal Current Power)ocean renewable energyAtlasOffshore wind farmsMarine currentsResource assessmentOWCPoint absorberScale testing of marine energy systemsCost driversTest RigOffshoreActuator disctidal energy convertersMarine Renewable EnergyEnergy captureHydrodynamicsFeed in TariffsTurbulenceAlderney RaceTidal TurbinesTechnology developmentDirect Drive WECTidal energywave farmCFD (Computational Fluid Dynamics)Irregular wavesInternational standardsModellingComponent testingNumerical simulationsTidal turbineFORCE siteEnvironmental Impact AssessmentSediment transportOffshore platformsTidal resourceOsmotic powerDesign toolswave energy convertersWave energy converter arraySurvivabilityTurbineacousticsEnvironmental effects of ocean energyTest facilityPolicy frameworkGISBest practicesTest centersWave energy resourceFeasibilityWakeTidalEnvironmental ImpactTidal projectsMooringRiver TurbinesCalibrationCollision Evasion ModelWaveRollerWECArray configurationTidal Stream EnergySynergiesEuropean Marine Energy centreWind energyBlade ElementCommercialisationMarketPower Take OffFinancingFluid-structure interactionsOffshore windPublic acceptabilityMarine Current TurbinesOscillating Water Columntank testingOES-IAWave HubTidal streamDEXAWave DragonU.S. Marine Energy ResourceCompositeMarine energy sectorDynamic modellingWave climateGrand PassageTELEMACGrid integrationOcean Thermal Energy ConversionResourcesNorth Sea5-beam ADCPLinear generatorHydrodynamic Site AssessmentThird generation spectral modelcombinedFlux-Switching PMenergy storageVortex MethodTest sitesTidal arraysWaveDevelopmentPower QualityCurrentsWave modelingoptimizationAMAZONSupply chainMutrikucombined wind and waveWavestarVertical axisArch-Shaped Pendulum GeneratorThermosolar Energysea trialsEfficiencyReunion IslandExperimentsOvertoppingAMERWave energy conversionWave energySite AnalysisGeneric modellingBay of FundyBathymetryEuropean roadmapRenewable energyWave Basin Testing CorrosionMHK technologyO&M StrategyOverload sheddingTidal currentsTidal currentHydrodynamicTidal powerRANSDesign LoadOESOpinionMooringsBIMEPFatigueIndustryExperimental trialsDemand and supply fluctuationsmarine renewablesOTECNearshore wave energyMarine current turbineWECsStrategy and policiesActuator DiskTidal energy converterWave Energy Test SiteReliabilityBlade designTidal RangeRisk MitigationEIAPortugaloptimisationEnergy resourceMeygenORPCPlatformHydrodynamic modellingAquamarine PowerOnshorePower transmission efficiencyCommercializationMarine Energy TechnologyFloating Power Plant Technological Innovation SystemsTidal current turbineAquacultureWindBreakwaterPentland FirthNumerical simulationMREControlElectricity generationADCPOcean EnergyNumerical modellingHydrokinetic turbinesAcoustic Doppler current profilerOCEAN LIDERair turbinePower trainWave powerMinas PassageOPEXModal analysissite selectionHydrokinetic energyArraysMarine energyMooring systemRotorAccessibility assessmentOffshore renewable energyHybrid SystemsTidal Stream TurbineEnvironmental monitoringPelamis fundamentalsSwitched reluctance machineLinear switched reluctance generatorArray

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