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2.5kW海上仪器潮流能电能补充装置试验

Experimental Study on the Electric Supplementary Device Rated 2.5 kW for Marine Observation Instrument
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摘要 随着陆地资源日益枯竭,海洋成为人类生存和发展的广阔空间。针对海洋的研究不断扩大,海洋观测仪器日益增多,决定海上仪器工作时间的关键就是其内部电源的供电能力。在国家海洋能专项资金课题支持下,设计了一种利用海洋潮流能发电的2.5 k W拖曳式水平轴潮流能发电装置,为大型海洋浮标装置提供可靠的水下电能补充,通过拖动试验及海上试验表明该装置启动流速低、可靠性高。 With land resources increasingly in shortage, the ocean has become a vast space for the survival and development of human beings. With marine research constantly deepening, the number of marine observation instruments increases with every passing day. The power supply capability determines the working duration of the marine instrument. This paper, supported by the Special Fund for Marine Energy, designs a towed 2.5 k W horizontal axis tidal current energy power generating device to utilize ocean current energy, so as to supply reliable and supplementary underwater electricity for large ocean buoys. The drag tests and sea trials show that the device has the advantages of low start velocity and high reliability.
作者 朱挽强 吴百公 赵阳 陈健梅 董永军 张雪明
机构地区 东北师范大学物理学院吉林省先进能源开发与应用创新重点实验室
出处 《海洋技术学报》 2016年第5期41-44,共4页 Journal of Ocean Technology
基金 中央高校基本科研项目资助潮汐电站中竖井贯流式水轮机的水利优化研究(2015B12514)
关键词 潮流能 海上仪器供电 海上试验 tidal current energy power supply for marine instruments sea trials
分类号 TK79 [动力工程及工程热物理—流体机械及工程] P743.1 [天文地球—海洋科学]
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海洋技术学报
2016年 第5期

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