采用中尺度大气模式MM5构建渤海、黄海和东海高时空分辨率风场,以此风场驱动第三代海浪数值模式SWAN,得到成山头海域1991年1月至2010年12月较高分辨率的波浪场,计算了成山头海域的波浪能流密度,综合考虑能流密度的大小和10个站位能流密度分级统计的特征等方面对成山头海域波浪能资源进行了研究,寻找该海域波浪能资源的相对优势区域,为波浪能海上测试场场址的选择提供科学依据。 Using mesoscale atmospheric model MM5 to construct the spatio-temporal resolution wind field in the Bohai Sea, the Yellow Sea and the East China Sea, the third-generation numerical model SWAN was driven by the wind field to obtain the higher resolution of the Chengshantou Sea from January 1991 to December 2010 Wave field, the wave energy density of Chengshantou sea area has been calculated, and the wave energy resources in Chengshantou sea area have been studied considering the size of energy flux density and the energy density grading statistics of 10 stations. The comparative advantage area of ​​resources can provide a scientific basis for the selection of wave energy sea test site.