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- Report:
Marine Renewables Canada
Marine Renewable Canada is the national association for wave, tidal, offshore wind and river current energy, representing technology and project developers, utilities, researchers, and the energy and marine supply chain. Since 2004, the association has worked to identify and foster collaborative opportunities, provide information and education, and represent the best interests of the sector to…
- Report:
Marine Renewables Canada
Marine Renewable Canada is the national association for wave, tidal, offshore wind and river current energy, representing technology and project developers, utilities, researchers, and the energy and marine supply chain. Since 2004, the association has worked to identify and foster collaborative opportunities, provide information and education, and represent the best interests of the sector to…
- Report:
Marine Renewables Canada
Marine Renewable Canada is the national association for wave, tidal, offshore wind and river current energy, representing technology and project developers, utilities, researchers, and the energy and marine supply chain. Since 2004, the association has worked to identify and foster collaborative opportunities, provide information and education, and represent the best interests of the sector to…
- Report:
Marine Renewables Canada
Marine Renewable Canada is the national association for wave, tidal, offshore wind and river current energy, representing technology and project developers, utilities, researchers, and the energy and marine supply chain. Since 2004, the association has worked to identify and foster collaborative opportunities, provide information and education, and represent the best interests of the sector to…
- Journal Article:
Tay and Venugopal
The oscillating wave surge converter (OWSC) is a type of ocean wave power device typically consisting of a flap, or arm, hinged at the bottom to allow forward and backward movement by surging waves, and is efficient in generating electricity from waves due to its capability in operating at a wide range of wave spectra. The power generated from the OWSC could be further maximized by arranging…
- Report:
Marine Renewables Canada
Marine Renewable Canada is the national association for wave, tidal, offshore wind and river current energy, representing technology and project developers, utilities, researchers, and the energy and marine supply chain. Since 2004, the association has worked to identify and foster collaborative opportunities, provide information and education, and represent the best interests of the sector to…
- Report:
Marine Renewables Canada
Marine Renewable Canada is the national association for wave, tidal, offshore wind and river current energy, representing technology and project developers, utilities, researchers, and the energy and marine supply chain. Since 2004, the association has worked to identify and foster collaborative opportunities, provide information and education, and represent the best interests of the sector to…
- Journal Article:
Stefanizzi et al.
Marine energy still plays a marginal role in the current global energy scenario, despite the incessant e for more than thirty years in the exploitation of the so effort by research called blue energy. Nevertheless, thanks to a raising awareness of the gravity related to the climate changes, energy poverty and energy security, the Nations are expressing a commo n willingness to increase also…
- Journal Article:
Osman et al.
The global tidal energy resource for electricity generation is small, and converting tidal kinetic energy to electricity is expensive compared to solar-photovoltaic or land-based wind turbine generators. However, as the renewable energy content in electricity supplies grows, the need to stabilise these supplies increases. This paper describes tidal energy’s potential to reduce intermittency…
- Journal Article:
Orszaghova et al.
Since intermittent and highly variable power supply is undesirable, quantifying power yield fluctuations of wave energy converters (WECs) aids with assessment of potential deployment sites. This paper presents analysis of 3-hourly, monthly, seasonal, and inter-annual variability of power output of the M4 WEC. We compare expected performance from deployment at two wave energy…
- Journal Article:
Cai et al.
Ocean energy is an underutilized renewable energy source compared with hydropower and wind power. Therefore, the development of economical and efficient wave energy converters (WECs) is important and crucial for offshore power generation. The mooring tensioner is a critical device that can be used in point-absorber-type WECs, semisubmersible floats for oil and gas drilling, and floating wind…
- Journal Article:
da Silva et al.
Hybrid platforms composed of a floating offshore wind turbine (FOWT) and wave energy converters (WECs) may possibly reduce the levelised cost of energy of both energy harvesting devices and improve the platform dynamics. This paper investigates the dynamics of a hybrid platform composed of a semi-submersible FOWT combined with three spherical heaving point absorbers (PAs), either floating or…
- Report:
Baca et al.
As the world faces increasing threats from climate change, the importance of developing renewable energy technologies and reducing their costs has similarly increased. Marine energy technologies (which include wave, tidal, ocean current, ocean thermal, and salinity gradient resources) are a nascent suite of renewable technologies. There are vast marine energy resources available around the…
- Journal Article:
Yang and Yeh
This study investigates the effects of working fluids on the performance of an organic Rankine cycle (ORC) used in an Ocean Thermal Energy Conversion (OTEC) power plant. Working fluids of R1123, R161, R32 and their mixtures are employed. Parameters of pinch points, temperatures of deep cold and surface warm seawater, and efficiencies of pumps and expander are taken into consideration. The…
- Conference Paper:
Abidin et al.
Ocean Thermal Energy Conversion (OTEC) harnesses thermal energy stored at different seawater depths via power generation from a thermodynamic closed-loop cyclical system. Apart from its consistent energy generation, it could be diversified into other side industries, making OTEC an attractive and sustainable source of renewable energy. However, the process that utilises seawater as its main…
- Conference Paper:
Halimi and Generanta
Nowadays, the energy demand is continuous increasing due to the growing population in the world. However, the major primary energy resources, fossil fuels, are inadequate. Thus, it is required to find another energy resources, especially the renewable ones, to meet the energy demand. One of prospective renewable energy resources is marine energy. In this paper, an ammonia-water zeotropic…
- Book Chapter:
Bhatnagar et al.
Marine renewable energy generated from ocean tides and waves has not yet reached wide spread deployment or full commercial availability on par with comparable sources. This handbook chapter describes the global development of marine renewable energy technology and the most promising commercialization pathways, including “blue economy” marine applications, competitiveness in new electric grid…
- Report:
Osman et al.
Wave Swell Energy Ltd (WSE) has commissioned CSIRO to provide an independent analysis of the cost-benefit of using its wave energy technology as a reliable supply of renewable energy. Previous studies have suggested that the consistency and reliability of wave power along Australia’s southern coastline can contribute to a significant proportion of Australia’s renewable electricity supply. This…
- Journal Article:
McTiernan and Sharman
Hybrid wind wave systems combine offshore wind turbines with wave energy on a shared platform. These systems optimize power production at a single location by harnessing both the wind and the waves. Wave energy is currently at an earlier development stage than offshore wind. Research in this area is focused in wave energy converters being used for platform motion suppression of floating…
- Conference Paper:
Bellew et al.
As the depths of sites consented for offshore wind increases, the need to develop floating foundations for wind turbines increases, as fixed foundations are only economically viable up to approximately 50 m water depth [2]. Key to developing the floating wind turbine industry is the development of accurate numerical models, which can combine the aerodynamic, hydrodynamic, structural…
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