Abstract
Wind energy, one of the most sustainable renewable energy sources, has been extensively developed worldwide. However, owing to the strong regional and seasonal differences, it is necessary to first evaluate wind energy resources in detail. In this study, the offshore wind characteristics and wind energy potential of Bohai Bay (38.7° N, 118.7° E), China, were statistically analyzed using two-year offshore wind data with a time interval of one second. Furthermore, Nakagami and Rician distributions were used for wind energy resource assessment. The results show that the main wind direction in Bohai Bay is from the east (−15°–45°), with a speed below 12 m/s, mainly ranging from 4 to 8 m/s. The main wind speed ranges in April and October are higher than those in August and December. The night wind speed is generally higher than that in the daytime. The Nakagami and Rician distributions performed reasonably in calculating the wind speed distributions and potential assessments. However, Nakagami distribution provided better wind resource assessment in this region. The wind potential assessment results suggest that Bohai Bay could be considered as a wind class I region, with east as the dominant wind direction.
Highlights
Wind energy is currently the most competitively priced technology in many markets, and China leads the wind power market
As one of the most sustainable renewable energies, is abundant, it requires the in-depth analysis of wind characteristics and potential in order to determine the feasibility of installing offshore wind turbines [3,4]
The prevailing wind direction in BohaiinBay can Bay be determined soeasily, the optimal optimal position of windprojects turbine can projects can be determined in thePDFs future
Summary
Wind energy is currently the most competitively priced technology in many markets, and China leads the wind power market. Unlike its onshore wind counterparts in Gansu, Xinjiang Jilin, and Inner Mongolia, the first 1000 MW/year of offshore wind in China was installed only in 2017 owing to the great cost of constructing, maintaining, and repairing offshore wind turbines [1]. Zhao [2] claimed that the “golden period” of offshore wind power will arrive in 2020, based on their analysis of Chinese policies, markets, technology, and development plans. As one of the most sustainable renewable energies, is abundant, it requires the in-depth analysis of wind characteristics and potential in order to determine the feasibility of installing offshore wind turbines [3,4]
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