04034nam 2200925z- 450 991058593860332120231214133653.0(CKB)5600000000483096(oapen)https://directory.doabooks.org/handle/20.500.12854/91230(EXLCZ)99560000000048309620202208d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierHybrid Systems for Marine Energy HarvestingBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (182 p.)3-0365-4627-8 3-0365-4628-6 Technologies to harvest marine renewable energies (MREs) are at a pre-commercial stage, and significant R&D progress is still required in order to improve their competitiveness. Therefore, hybridization presents a significant potential, as it fosters synergies among the different harvesting technologies and resources. In the scope of this Special Issue, hybridization is understood in three different manners: (i) combination of technologies to harvest different MREs (e.g., wave energy converters combined with wind turbines); (ii) combination of different working principles to harvest the same resource (e.g., oscillating water column with an overtopping device to harvest wave energy); or (iii) integration of harvesting technologies in multifunctional platforms and structures (e.g., integration of wave energy converters in breakwaters). This Special Issue presents cutting-edge research on the development and testing of hybrid technologies for harvesting MREs and intends to inform interested readers on the most recent advances in this key topic.Technology: general issuesbicsscHistory of engineering & technologybicsscvertical axisymmetric floatersarbitrary shapebreakwaterdiffraction and radiation problemhydrodynamic characteristicsadded massdamping coefficientmarine renewable energywind energysolar energyresource assessmenthybrid energy systemspower take-off dampingwave power deviceexperimental testingPTO simulatoruncertainty analysiswave energy testingexperimental set-upcalibrationComputational Fluid Dynamics (CFD) modellingphysical model testingHybrid-Wave Energy Converter (HWEC)composite modelling approachOscillating Water Column (OWC)Overtopping Device (OTD)multi-purpose breakwaterwave poweroscillating buoypower generation performancestanding wavesexperimental researchphysical modellingwave energybreakwaterssafetyovertoppingstabilityoffshore wind energyCECOWindFloat Atlanticco-located wind-wave farmTechnology: general issuesHistory of engineering & technologyRosa-Santos Paulo Jorgeedt1318510Taveira Pinto FranciscoedtLópez Gallego MarioedtRodríguez Castillo Claudio AlexisedtRosa-Santos Paulo JorgeothTaveira Pinto FranciscoothLópez Gallego MarioothRodríguez Castillo Claudio AlexisothBOOK9910585938603321Hybrid Systems for Marine Energy Harvesting3033345UNINA