引用本文: 【打印本页】   【HTML】   【下载PDF全文】   【查看/发表评论】  【EndNote】   【RefMan】   【BibTex】 ←前一篇|后一篇→ 过刊浏览    高级检索 本文已被：浏览 84次   下载 44次 码上扫一扫！ 分享到： 微信 更多 字体:加大+|默认|缩小- 0814号强台风“黑格比”风场相干结构统计和演化特征研究 李利孝1,2, 陈上鑫1,2, 黄希桂3, 肖仪清3, 陈贤川1 1. 深圳大学土木与交通工程学院，广东 深圳 518060;2. 广东省滨海土木工程耐久性重点实验室，广东 深圳 518060;3. 哈尔滨工业大学（深圳）土木与环境工程学院，广东 深圳 518055 摘要: 为了探究台风风场相干结构统计特性以及在台风不同空间结构部位的演化规律，采用小波系数谱分析(Spavelet Analysis)方法对0814号强台风“黑格比”风速场的湍流相干结构统计特征及演化特性进行了系统分析。研究结果表明：对于0814号强台风“黑格比”过程，顺风向脉动风速与横风向脉动风速的相干结构呈现出多尺度分布特征；顺风向、横风向和竖向风速分量的相干结构主周期均值分别为70.2 s、50.3 s、22.8 s，主尺度均值分别为54.4 s、38.9 s、18.2 s，三个方向相干结构的周期尺度比均值分别为1.28、1.27、1.29；台风“黑格比”风场水平向空间部位中，前外环流区(FOV)的顺风向、横风向和竖向的相干结构主尺度均值分别为68.8 s、41.7 s、14.4 s；前眼壁区(FEW)的三个方向脉动风速的相干结构主尺度均值分别为69.9 s、32.5 s、19.5 s；风眼区三个方向脉动风速的相干结构主尺度分别为83.5 s、50.3 s、15.3 s；后眼壁区(BEW)其值为55.1 s、42.3 s、11.2 s；后外环流区(BOV)三个方向脉动风速相干结构的主尺度分别为53.6 s、39.1 s、10.9 s；整体上表现为前外环流区(FOV)和前眼壁区(FEW)相干结构主尺度大于后眼壁区(BEW)和后外环流区(BOV)，风眼区相干结构主尺度则为最大。 关键词:  相干结构  小波系数谱  主尺度  主周期  周期尺度比 DOI：10.16032/j.issn.1004-4965.2023.001 分类号: 基金项目: STATISTICAL ANALYSIS AND EVOLUTION CHARACTERISTICS OF THE COHERENT STRUCTURE OF STRONG TYPHOON HAGUPIT (0814) LI Lixiao1,2, CHEN Shangxin1,2, HUANG Xigui3, XIAO Yiqing3, CHEN Xianchuan1 1. College of Civil and Transportation Engineering, Shenzhen University, Shenzhen, Guangdong 518060, China;2. Guangdong Provincial Key Laboratory of Durability for Marine Civil Engineering, Shenzhen, Guangdong 518060, China;3. School of Civil and Environmental Engineering, Harbin Institute of Technology (Shenzhen), Shenzhen, Guangdong 518055, China Abstract: To explore the statistical characteristics of the coherent structure in typhoon field and its evolution in different parts of typhoon spatial structure, the present study uses spectral analysis of wavelet coefficients to comprehensively analyze the statistical characteristics and the evolution of turbulent coherent structures in strong Typhoon Hagupit (0814). The results show that for Typhoon Hagupit (0814), the coherent structures of the fluctuating wind speed of downwind and cross wind present multi-scale distribution. The mean principal periods of the coherent structures in downwind, cross wind and vertical wind are 70.2?s, 50.3?s and 22.8?s, respectively, and their mean principal scales are 54.4?s, 38.9?s and 18.2?s, respectively. The mean period scale ratios of the coherent structures in the three wind directions are 1.28, 1.27 and 1.29, respectively. The mean principal scales of the coherent structures in downwind, cross wind and vertical wind at the front outer vortex are 68.8 s, 41.7 s and 14.4 s, respectively, and the corresponding values at the front eyewall are 69.9 s, 32.5 s and 19.5 s, respectively. The mean principal scales of the coherent structures in the three wind directions at the wind eye and the back eyewall are 83.5?s, 50.3 s, and 15.3 s, and 55.1 s, 42.3 s and 11.2 s, and the corresponding values at the back outer vortex are 53.6 s, 39.1 s, and 10.9 s, respectively. Overall, the principal scale of coherent structures in the wind eye is the largest. Key words:  coherent structure  wavelet coefficient spectrum  principal scale  principal period  period scale ratio

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