Results 261 to 270 of about 56,271 (311)

Offshore wind farming in Taiwan

Open Access Government, 2023
Offshore wind farming in Taiwan int his question and answer with Open Access Government, Dr Song GwoShyh from MMA Global Aqua Co. Ltd. discusses his company's role in offshore wind farming in Taiwan and their ambitions for the future.
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Wind lidars within Dutch offshore wind farms

2023
The growing number of wind farms in the Dutch part of the North Sea [1] offers the necessity, as well as the opportunity, to measure the meteorological conditions at these locations. Wind lidars are deployed on the TenneT substations within those wind farms, to continuously measure the wind conditions.
Steven Knoop, Mando de Jong
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Offshore wind farm repowering optimization

Applied Energy, 2017
Decommissioning is usually the last stage of the offshore wind farm life cycle. Due to the challenges of the decommissioning process, such as the impact on the marine environment, severe weather conditions, vessel limitations and lack of operational experience, the decommissioning strategy should be planned to avoid complications, which ultimately can ...
Peng Hou, Peter Enevoldsen, Weihao Hu, Cong Chen, Zhe Chen   +4 more
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Wind-wave-wake interactions in offshore wind farms

2023
Offshore wind farms are exposed to a dynamic environment where the interactions between wind and waves modify wind resources. By extracting energy from the flow, wind farms alter these interactions and traditional wind resource assessment usually simplifies or ignores the interactions between wind and waves.
Jana Fischereit, Marc Imberger, Sara Müller, Andrea N. Hahmann, Xiaoli Guo Larsén   +4 more
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Cost Reduction Prospects for Offshore Wind Farms

Wind Engineering, 2004
The economics of offshore wind farms are presently less favorable than for onshore wind energy. Consequently there is a strong need for significant cost reductions in order to become competitive. About 70% of the electricity cost of offshore wind farms is determined by the initial investment costs, which mainly consist of the wind turbines ...
Junginger, H.M., Turkenburg, W.C., Faaij, A.P.C.   +2 more
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Offshore wind farm arrays

2016
This chapter presents some of the main configurations and technologies that are being used or considered for offshore wind farm electrical collection. It introduces the industry's current practice for design and implementation. Wind turbine array layouts and electrical collectors are designed on a site-specific basis to achieve a good balance between ...
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Decommissioning of Offshore Wind Farms

2018
After a useful life of 20 to 25 years of existing offshore wind farms, the decommissioning will be a challenging task. In this context, an optimized planning of decommissioning enables savings of energy costs. Due to the lack of sufficient empirical data about decommissioning of offshore wind farms, simulation techniques represent a suitable analysis ...
Thies Beinke, Abderrahim Ait Alla, Michael Freitag   +2 more
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Reap the wild wind [offshore wind farm]

IEEE Spectrum, 2002
The worlds largest offshore wind farm is being built at Horns Rev (Reef) in the often turbulent seas off Denmark. The 80 towers in 20 km/sup 2/ of sea will be capable of generating 160 MW of power. Elsam expects Horns Rev to make 600 GWh of electricity a year, 2% of the country's consumption. This paper discusses the construction of the wind farm.
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Dudgeon Offshore Wind Farm Offshore Archaeology Final Report

2020
The Dudgeon Offshore Wind Farm (DOW) is located c. 32km off the coast of Cromer in North Norfolk with an export cable route running in an approximately south westerly direction from the wind farm to a landfall at Weybourne Hope on the North Norfolk coast.
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Offshore Wind Farms

2021
Mukund R. Patel, Omid Beik
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