Blue Growth Development in the Mediterranean Sea: Quantifying the Benefits of an Integrated Wave Energy Converter at Genoa Harbour

Lavidas, George; Leo, Francesco De; Besio, Giovanni

doi:10.3390/en13164201

Cited by 8 publications

(4 citation statements)

References 37 publications

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“…Moreover, using wave data from the wave climate of Mazara del Vallo (Sicily) and Alghero (Sardinia), the device was installed. Lavidas et al [73] examined the exploitation of wave energy by OWC in the port of Genova, Italy. They evaluated the possibility of installing an OWC in the port, estimating the payback period, the levelized cost of electricity (LCoE), the technical and economic capabilities, as well as the pollution that would be avoided due to the decreased consumption of fossil fuels.…”

Section: Academic Researchmentioning

confidence: 99%

“…Hence, up to date, innovative concepts have been designed in such a way that WECs can easily be integrated into the breakwaters of ports, providing both energy and safety [92]. Moreover, there is a growing body of literature that revealed the advances of these integrations [90][91][92] and focused on the assessment of WECs in the breakwaters of ports [73,82]. In the case of islands, energy safety is a vital issue, and renewable extraction has growing importance [93].…”

Section: Advantageous Aspects Of Wave Energy Exploitation In the Medi...mentioning

confidence: 99%

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Wave Energy in the Mediterranean Sea: Resource Assessment, Deployed WECs and Prospects

Dialyna

Tsoutsos

2021

Energies

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A detailed review of wave energy resource assessment and the state-of-the-art of deployed wave energy converters (WECs) in real environmental conditions in the Mediterranean Sea have been analysed in this study. The installed power of the several deployed WECs in the Mediterranean Sea varies between 3–2500 kW. Ten project cases of deployed WECs in the basin are presented, with their analysis of the essential features. Five different types of WEC have already been tested under real environmental conditions in Italy, Greece, Israel and Gibraltar, with Italy being the Mediterranean country with the most deployed WECs. The main questions of the relevant studies were the ongoing trends, the examination of WECs in combination with other renewable sources, the utilising of WECs for desalination, and the prospects of wave energy in the Mediterranean islands and ports. This paper is the first comprehensive study that overviews the recent significant developments in the wave energy sector in the Mediterranean countries. The research concludes that the advances of the wave energy sector in the Mediterranean Sea are significant. However, in order to commercialise WECs and wave energy exploitation to become profitable, more development is necessary.

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Section: Academic Researchmentioning

confidence: 99%

Section: Advantageous Aspects Of Wave Energy Exploitation In the Medi...mentioning

confidence: 99%

Wave Energy in the Mediterranean Sea: Resource Assessment, Deployed WECs and Prospects

Dialyna

Tsoutsos

2021

Energies

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“…For the latter, ports comprise several power-intensive operations that will need to be decarbonised without jeopardising operation capacity [14]. Several solutions have been highlighted for ports based on existing wind (onshore/offshore) and solar photovoltaics [15], and novel solutions are emerging such as integrated wave energy at ports and breakwaters [16][17][18]. Such diverse generation systems have benefits in overlapping power production, hence reducing intermittency [19], but they can also reduce CO 2 and be economically viable in under 10 years, as it was shown to be the case in the Aeolian Islands [20].…”

Section: Introductionmentioning

confidence: 99%

Assessing Renewable Resources at the Saronikos Gulf for the Development of Multi-Generation Renewable Systems

Lavidas

Kaldellis

2020

Sustainability

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Decarbonisation of any energy system implies that more renewables will have to be incorporated into the grid. This requires a thorough assessment of available resources to properly estimate potential contributions and identify opportunities. This work focuses on the Saronikos Gulf, which is part of the most crowded urban coastline in Greece. Solar, wind and wave resources are analysed, and the long-term characteristics affecting power production are discussed. Solar resources provide ≥250 Wh·m−2 with small long-term changes. Wind resources at coastal and onshore regions are ≥50 W·m−2; however, it has higher annual volatility. Finally, the wave resources of the region are from 130 to 170 W/m with a positive resource rate of change ≈2.5 W·m−1/year. It is expected that multi-generation by different resources, especially with temporal overlaps of wind and waves, will reduce intermittent production, hence accelerating the energy transition.

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“…However, it can be noticed that in some particular areas a significant enhancement of the wave power variability is expected, especially in the case of RCP8.5. For the same Mediterranean coastal areas, in [7] a study based on some previous projects concerning the development of a wave energy converter, integrated as a vertical wall breakwater, is presented. The work assesses the power performance and the economic parameters of the installation considered.…”

mentioning

confidence: 99%

Marine Renewable Energy: An Important Direction in Taking the Green Road towards a Low Carbon Future

Rusu

2022

Energies

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Blue Growth Development in the Mediterranean Sea: Quantifying the Benefits of an Integrated Wave Energy Converter at Genoa Harbour

Cited by 8 publications

References 37 publications

Wave Energy in the Mediterranean Sea: Resource Assessment, Deployed WECs and Prospects

Wave Energy in the Mediterranean Sea: Resource Assessment, Deployed WECs and Prospects

Assessing Renewable Resources at the Saronikos Gulf for the Development of Multi-Generation Renewable Systems

Marine Renewable Energy: An Important Direction in Taking the Green Road towards a Low Carbon Future

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