大万山波浪能示范场波浪能资源测试分析

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英文篇名：TESTING AND ANALYSIS OF WAVE ENERGY RESOURCES IN DAWANSHAN WAVE ENERGY DEMONSTRATION FIELD 作者：盛松伟 ; 张亚群 ; 游亚戈 ; 姜家强 ; 王坤林 ; 王振鹏 英文作者：Sheng Songwei;Zhang Yaqun;You Yage;Jiang Jiaqiang;Wang Kunling;Wang Zhenpeng;Key Laboratory of Renewable Energy,Guangzhou Institute of Energy Conversion,Chinese Academy of Sciences;University of Chinese Academy of Sciences; 关键词：波浪能 ; 能流波浪数据 ; 能流密度 ; 大万山海域 英文关键词：wave power;;wave data;;energy density;;Dawanshan sea area 中文刊名：TYLX 英文刊名：Acta Energiae Solaris Sinica 机构：中国科学院广州能源研究所中国科学院可再生能源重点实验室;中国科学院大学; 出版日期：2019-02-28 出版单位：太阳能学报 年：2019 期：v.40 基金：中国科学院战略性先导科技专项A类资助(XDA13040201);; 国家自然科学基金青年基金(41406102);; 国家海洋可再生能源专项资金(GHME2016YY01) 语种：中文; 页：TYLX201902024 页数：4 CN：02 ISSN：11-2082/TK 分类号：178-181

摘要

通过对大万山波浪能示范场资源的测试,针对6月份的波浪数据进行全面统计,分析大万山海域的波浪能资源分布状况。结果表明大万山海域波高范围为0.3～1.8 m,周期范围为2.7～8.0 s,浪向以正南向为主,能流密度均值为2.2 kW/m。大万山波浪能示范场的波浪能资源测试结果,可为在该示范场进行实海况测试的波浪能装置的设计、投放、运行提供理论参考。
        The investigation and evaluation of ocean energy resources during the construction of wave energy demonstration field is an important work in the early period,specially for wave energy. This paper tests the wave resources of the Dawanshan wave energy demonstration field,and statistics wave data of June,and analyzes the distribution of wave energy resources of Dawanshan wave energy demonstration field. The results show that wave height is from 0.3 m to 1.8 m,the range of wave cycle is from 2.7 s to 8.0 s,the large amount of wave is from south,the average energy flow density is 2.2 kW/m,in the Dawanshan area. The result of survey on Dawanshanwave energy demonstration field provides a theoretical reference for wave energy converters(WECs)about design,testing in the real sea,delivery,operation management,and so on.

引文

[1]罗续业.我国波浪能、潮流能海上试验场建设[R].第一届中国海洋可再生能源发展年会暨论坛,2012.[1]Luo Xuye.Construction of wave energy and tidal current energy offshore test field in China[R].The First Chinese Marine Renewable Energy Development Forum Annual Conference,2012.
    [2]刘功鹏,孙晓娟,周凯.波浪能与潮流能海上测试场场址选择研究[J].水电与新能源,2015,11:75-78.[2]Liu Gongpeng,Sun Xiaojuan,Zhou Kai.Selection of the wave energy and tidal current energy sea trial site[J].Hydro Power and New Energy,2015,11:75-78.
    [3]李彦,罗续业,路宽.潮流能、波浪能海上试验与测试场建设主要问题分析[J].海洋开发与管理,2013,30(2):36-39.[3]Li Yan,Luo Xuye,Lu Kuan.The main problems of tidal current energy,wave energy test and test field constructio[J].Ocean Development and Management,2013,30(2):36-39.
    [4]范飞,梁丙臣,齐静静.黄河口三角洲波浪能和风能资源评估[J].太阳能学报,2014,35(8):1363-1368.[4]Fan Fei,Liang Bingchen,Qi Jingjing.Assessment of wave energy and wind energy resoures of Yellow River Delta[J].Acta Energiae Solaris Sinica,2014,35(8):1363-1368.
    [5]周凯,汪睿.山东半岛近海波浪能资源状况初步分析[J].水力发电,2013,(11):94-99.[5]Zhou Kai,Wang Rui.Preliminary analysis of wave energy resources in the coastal waters of Shandong Peninsula[J].Hydroelectric Power,2013,(11):94-99.
    [6]EMEC.Assessment of performance of tidal energy conversion systems[S].UK:The European Marine Energy Centre Ltd.,2009.
    [7]EMEC.Assessment of performance of wave energy conversion systems[S].UK:The European Marine Energy Centre Ltd.,2009.
    [8]国家海洋技术中心.波浪能、潮流能海上试验与测试场建设论证及工程设计实施方案[Z].2010.[8]National Marine Technology Center.The demonstration of the wave energy and tidal current energy and the construction of the test field and the implementation plan of the engineering design[Z].2010.