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潮流能无污染,可预测性高,环境影响小,是一种非常有发展潜力的可再生能源.近年来,潮流能开发技术发展迅速,日趋成熟.我国潮流能资源丰富,合理有效的开发潮流能资源对保障我国的能源安全意义重大.文中总结我国潮流能开发利用中存在的主要问题,提出我国潮流能开发工作的几点建议. 相似文献
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东海南部海域夏秋季沿岸流特征 总被引:1,自引:0,他引:1
Current characteristics and vertical variations during summer and autumn in the southern East China Sea were investigated by measuring current profile, tide, wind, and wave data for 90 d from July 28 to October 25, 2015. Our results are:(1) The current was mainly a(clockwise) rotating flow, displaying reciprocating flow characteristics,and vertically the current directions were the same throughout the vertical profile.(2) The horizontal current speed was strongest during August(summer) with an average speed of 51.8 cm/s. The average current speeds during spring tides were highest in August and weakest in September, with speeds of 59.9 and 42.8 cm/s,respectively.(3) Considerable differences exist in average current speeds in different layers and seasons. The highest average current speeds were found in the middle–upper layers in August and in the middle–lower layers in September and October.(4) The residual current speed was highest in August, when the speed was 12.5–47.1 cm/s,whereas the vertical average current speed was 34.3 cm/s. The depth-averaged residual current speeds in September and October were only 50% of that in August, and the residual current direction gradually rotated in a counter-clockwise direction from the lower to surface layers.(5) Typhoon waves had a significant influence on the currents, and even affected the middle and lower water layers at depths of >70.0 m. Our results showed that the currents are controlled by the dynamic interplay of the Taiwan Warm Current, incursion of the Kuroshio Current onto the continental shelf, and monsoonal changes. 相似文献
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风暴潮是一种复杂的对众多因素敏感又备受关注的海洋现象。本文基于协方差局地化的集合卡尔曼滤波方法(EnKF),选择201810号台风“安比”登陆上海的风暴潮过程,首次将海洋站和FVCOM数值模拟的不同来源、不同误差信息、不同时空分辨率的风暴潮进行数据同化融合,获得了逐72 h的上海海域风暴潮的最优解,进行了同化结果评估验证,并给出了集合样本数和Schur半径设置范围。结果表明,实测计算和数值模拟的风暴增减水之间均方根误差为0.20 m,实测和同化计算的风暴增减水之间均方根误差为0.07 m,准确度提高了65%;独立观测和同化计算的风暴增减水均方根误差为0.09 m,集合离散度与均方根误差比值为0.90,同化效果较好且可信;同化后的风暴增减水能够较好地刻画双峰增水、台风眼增水、增水锋面等特征,对于风暴潮研究、数值模拟结果订正、海洋防灾减灾等有重要意义。 相似文献
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利用非结构化网格有限体积方法的FVCOM模型,建立了1个高分辨率的三维盐度扩散模型,综合考虑了潮汐、季风和波浪对高盐水扩散的影响,模拟了海阳海水淡化厂夏季高盐废水排放的扩散情况。通过模拟发现,高盐水主要集中在底层,表层、中层含量很少。在波浪的作用下,垂向混合加强,高盐水在底部的扩散有所收缩,而在中层和表层相应的增大。结果表明,对高盐水扩散的数值模拟研究,必须使用高分辨率的三维模型,并应当考虑波浪的影响。 相似文献
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