00825nam0-22003131i-450-99000647187040332120001010000647187FED01000647187(Aleph)000647187FED0100064718720001010d--------km-y0itay50------baitay-------001yyCivilta degli arabiFrancesco Castro.TorinoLoescher1978.2 voll. 22 cm<<La >>ricerca51-52Vol. I-II.953Castro,Francesco<1936- >243087ITUNINARICAUNIMARCBK990006471870403321COLLEZ. 379(51-52)16801-16802FSPBCFSPBCCivilta degli arabi651731UNINAGEN0104138nam 2201009z- 450 991055771240332120210501(CKB)5400000000046201(oapen)https://directory.doabooks.org/handle/20.500.12854/68691(oapen)doab68691(EXLCZ)99540000000004620120202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierWave and Tidal EnergyBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (222 p.)3-03936-292-5 3-03936-293-3 Concerns relating to energy supply and climate change have driven renewable energy targets around the world. Marine renewable energy could make a significant contribution to reducing greenhouse gas emissions and mitigating the consequences of climate change, while providing a high-technology industry. The conversion of wave and tidal energy into electricity has many advantages. Individual tidal and wave energy devices have been installed and proven, with commercial arrays planned throughout the world. The wave and tidal energy industry has developed rapidly in the past few years; therefore, it seems timely to review current research and map future challenges. Methods to improve understanding of the resource and interactions (between energy extraction, the resource and the environment) are considered, such as resource characterisation (including electricity output), design considerations (e.g., extreme and fatigue loadings) and environmental impacts, at all timescales (ranging from turbulence to decadal) and all spatial scales (from device and array scales to shelf sea scales).Research & information: generalbicsscabsorptionacoustic Doppler profilerannual mean power productionChilean coastdc-dc bidirectional converterenergy efficiencyenvironmental effectsexperimental testingfeasibility studyfinite control set-model predictive control (FCS-MPC)floating offshore wave farmhydrodynamic analysisimpact assessmentIRRLCOEmarine current energymarine energymarine renewable energymulti-type floating bodiesnonlinear Froude-Krylov forcenumerical modelingnumerical simulationocean energyoscillating water column (OWC)reanalysis wave datarenewable energyresourceresource characterizationrisk assessmentsea-state hindcastsediment dynamicsspiral involute bladeStrangford Loughsupercapacitor energy storage (SCES)surfing amenitySWANTaiwanese watersteleconnection patternstidal energytide-surge-wave modeltransmission coefficientunmanned ocean deviceunstructured grid modelwave climate variabilitywave energywave energy converterwave energy converterswave energy trendswave modelingwave powerwave propagationwavelet analysisWaveWatch IIIWECResearch & information: generalSoares Carlos Guedesedt1145541Lewis MatthewedtSoares Carlos GuedesothLewis MatthewothBOOK9910557712403321Wave and Tidal Energy3036043UNINA