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210512 ||| eng |
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|a 9783039285280
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|a 9783039285297
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|a books978-3-03928-529-7
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1 |
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|a Rusu, Eugen
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245 |
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|a Renewable Energy in Marine Environment
|h Elektronische Ressource
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260 |
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|b MDPI - Multidisciplinary Digital Publishing Institute
|c 2020
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300 |
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|a 1 electronic resource (324 p.)
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|a Mild-slope wave propagation model
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|a ADCP
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|a PTO system tuning
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653 |
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|a site measurements
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653 |
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|a laboratory tests
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|a DualSPHysics
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|a wave flume experiment
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|a waves-current interaction
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|a wave energy converter arrays
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|a optical measurements
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|a HVDC
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|a offshore wind turbines
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|a 6 degrees of freedom motion
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|a nonlinear wave condition
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|a wave-structure interaction
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|a sealing performance
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|a end fitting
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|a ocean energy
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|a Caspian Sea
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|a turbulence
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|a open boundaries
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|a multi-DOF WECs
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|a marine energy
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|a wave energy
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|a variable depth effects
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|a unbonded flexible pipe
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|a linearization
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|a large scale experiments
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|a moored floating wave-energy converter
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|a control system
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|a periodic lateral boundaries
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|a offshore wind
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|a sediment transport
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|a WEC-sim
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|a temperature
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|a model coupling
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|a wind speed
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|a short crested waves
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|a energy economics
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|a spatial resolution
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|a wave propagation
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|a MILDwave
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|a pressure penetration
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|a scour protection damage
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|a offshore wind farm
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|a oscillating water column
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|a HVAC
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|a design optimization
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|a climate change conditions
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|a marine environment
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|a wave-current interaction
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|a renewable energy
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|a cost-benefit analysis
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|a turbulence intensity
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|a turbulence kinetic energy
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|a History of engineering and technology / bicssc
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|a acoustic measurements
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|a time scale
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|a far field
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|a ocean renewable technologies
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|a erosion patterns
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|a capacity factor
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|a wide-graded materials
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|a wave propagation model
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|a length scale
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|a offshore turbines
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|a wave energy converter
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|a ocean renewable energy
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|a wave energy converters
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|a mooring-line tension
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|a numerical coupling
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|a OceanWave3D
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|a hydraulic
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|a Brazilian ocean energy
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|a near field
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|a levelized cost of electricity (LCOE)
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|a NEMOH
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|a ocean source potential
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|a scour
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|a coupling
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|a WECwakes project
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|a smoothed particle hydrodynamics
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|a PTO-sim
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|a BEM
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|a numerical modeling
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|a PTO system
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|a WEC array
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|a DC collection
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|a experimental validation
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|a WEC farm
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|a jacket
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|a LCOE
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041 |
0 |
7 |
|a eng
|2 ISO 639-2
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989 |
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|b DOAB
|a Directory of Open Access Books
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500 |
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|a Creative Commons (cc), https://creativecommons.org/licenses/by-nc-nd/4.0/
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028 |
5 |
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|a 10.3390/books978-3-03928-529-7
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856 |
4 |
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|u https://www.mdpi.com/books/pdfview/book/2125
|7 0
|x Verlag
|3 Volltext
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856 |
4 |
2 |
|u https://directory.doabooks.org/handle/20.500.12854/58196
|z DOAB: description of the publication
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|a 363
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|a 530
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|a 330
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|a 900
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|a 551.6
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|a 333
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|a 380
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|a 700
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|a 620
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|a The effects of human-caused global warming are obvious, requiring new strategies and approaches. The concept of business-as-usual is now no longer beneficial. Extraction of renewable energy in marine environments represents a viable solution and an important path for the future. These huge renewable energy resources in seas and oceans can be harvested, including wind, tide, and waves. Despite the initial difficulties related mostly to the elevated operational risks in the harsh marine environment, newly developed technologies are economically effective or promising. Simultaneously, many challenges remain to be faced. These are the main issues targeted by the present book, which is associated with the Special Issue of Energies Journal entitled "Renewable Energy in Marine Environment". Papers on innovative technical developments, reviews, case studies, and analytics, as well as assessments, and papers from different disciplines that are relevant to the topic are included. From this perspective, we hope that the results presented are of interest to for scientists and those in related fields such as energy and marine environments, as well as for a wider audience.
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