基于台风“海葵”实测的近地脉动风速功率谱及相关性研究

摘要
图/表
参考文献(14)
相关文章 (1)

全文: PDF (2535 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要基于上海浦东机场实测基地测风塔上10及30 m高度处台风“海葵”的现场实测数据，对台风“海葵”过境上海时的脉动风速功率谱和各向脉动风速分量之间的相关性进行了详细研究。研究表明：台风“海葵”脉动风速功率谱总体与Von Karman谱吻合良好，Von Karman谱能够较为准确的描述上海浦东地区的湍动能分布特性；风速谱值对平均风速的变化较敏感，高风速时段在惯性子区内具有更高的湍动能；实测互谱在低频和高频段均与本文提出的Kaimal修正谱符合较好；互相关系数在各高度处随平均风速的变化基本保持稳定，而互相关系数和在各高度处随平均风速的变化离散性相对较大；随着观测高度的增加，互相关系数的负相关性逐渐减小。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	王旭1
	2
	安毅3
	黄鹏2
	周海根2

关键词 ：台风&ldquo, 海葵&rdquo, ；现场实测；脉动风速；功率谱；相关性

Abstract：

Based on the field data recorded at the heights of 10 and 30m in Shanghai Pudong Airport Field Measurement Basement during the passage of typhoon Haikui, the spectra of fluctuating wind speed, as well as the correlation of longitudinal, lateral and vertical components of fluctuating wind speed were studied in detail. It is shown that: the measured spectra fit well with the Von Karman spectra, which could describe the distribution of turbulent kinetic energy of Pudong District precisely. The spectrum value is sensitive to the variation of mean wind speed, and the turbulent kinetic energy of high wind speed is greater in inertial sub-range. Under individual condition, spectrum value within a certain range of inertia subplot increase with Mourning coordinate. Measured cross-spectrums in low and highfrequencies are in good agreement with the Kaimal correction spectrum; Cross correlation coefficients at various heights remain stable with the changes of average wind speed, while cross correlation coefficients and at various heights have relatively large discrete with the changes of average wind speed, and cross correlation coefficient increases corresponding to the increase of height.

Key words： Typhoon ‘HaiKui’ field measurement fluctuating wind speed；?power spectrum correlation

收稿日期: 2016-05-23 出版日期: 2017-11-15

引用本文:

王旭1,2，安毅3，黄鹏2，周海根2. 基于台风“海葵”实测的近地脉动风速功率谱及相关性研究[J]. 振动与冲击, 2017, 36(22): 125-130.
WANG Xu1,2, HUANG Peng2,ZHOU Haigen2,GU Ming2. Study on power spectral densities and correlation analysis of fluctuating wind speed near ground based on the measurement of typhoon ‘HaiKui’. JOURNAL OF VIBRATION AND SHOCK, 2017, 36(22): 125-130.

链接本文:

http://jvs.sjtu.edu.cn/CN/ 或 http://jvs.sjtu.edu.cn/CN/Y2017/V36/I22/125

[1] 顾明．土木结构抗风研究进展及基础科学问题［R］北京：科学出版社，2006．
GU Ming. The research process and basic scientific issues about civil structure[R]. Beijing: Science Press,2006.
[2] 王旭，黄鹏，顾明．海边坡角可调试验房风荷载现场实测研究[J]. 振动与冲击， 2012，31 ( 5) : 176-182．
(WANG Xu, HUANG Peng, GU Ming.Field measurement of typhoon characteristics near ground in Shanghai district [J] .JOURNAL OF VIBRATION AND SHOCK, 2012, 31(5): 176-182.(In Chinese))
[3] 王旭, 黄鹏, 顾明.上海地区近地台风实测分析[J]. 振动与冲击. 2012, 31(20): 84-89.
(WANG Xu, HUANG Peng, GU Ming.Field investigation on wind loads of a low building with adjustable roof pitch near sea [J] .JOURNAL OF VIBRATION AND SHOCK, 2012, 31(20): 84-89.(In Chinese))
[4] 王旭, 黄鹏, 顾明.台风“梅花”影响下近地风脉动特性研究[J]. 土木工程学报. 2013, 46(2): 54-60.
( WANG Xu， HUANG Peng， GU Ming． Field measurement on wind characteristics near ground duringtyphoon‘Muifa’[J]． China Civil EngineeringJournal, 2013, 46(2):54-61.( in Chinese) )
[5] 史文海, 李正农, 张传雄. 温州地区近地强风特性实测研究[J]. 建筑结构学报, 2010, 31(10):34-40.
(SHI Wenhai, LI Zhengnong, ZHANG Chuanxiong．Field measurements of strong wind characteristics near ground in Wenzhou district[J]. Journal of Building Structures，2010, 31(10):34-40.( in Chinese) )
[6] YU B, CHOWDHURY AG, MASTERSF J. Hurricane Wind Power Spectra, Cospectra, and Integral Length Scales[J]. Boundary-Layer Meteorol, 2008, 129:411-430.
[7] HUI M C H, LARSEN A, XIANG H F.Wind turbulence characteristics study at the Stonecutters Bridge site: Part II—Wind power spectra, integral length scales and coherences[J].Journal of Wind Engineeringand Industrial Aerodynamics,2009, 97(1): 48-59.
[8] SHIAU BS.Velocity Spectra and Turbulence Statistics at the Northeastern Coast of Taiwan under High-wind condition[J]. Journal of Wind Engineering and Industrial Aerodynamics,2000, 88(2-3):139-151.
[9] 李波，张星灿，杨庆山等. 台风“苏力”近地风场脉动特性实测研究[J]. 建筑结构学报，2015，36(4): 13-18.
(LI Bo, ZHANG Xingcai, YANG Qingshan, et al. Ｒesearch on fluctuating wind characteristics near ground of typhoon ‘Soulik’ by field measurement[J]. Journal of Building Structures, 2015, 36(4):13-18．( in Chinese))
[10] 顾明, 匡军, 全涌等. 上海环球金融中心大楼顶部风速实测数据分析[J]. 振动与冲击, 2009, 28(12): 114-118.
(GU Ming, KUANG Jun, QUAN Yong, et al.AnalysisofmeasuredwindspeeddataontopofSWFC[J]. JOURNAL OF VIBRATION AND SHOCK, 2009, 28(12): 114-118.(In Chinese))
[11] 肖仪清, 孙建超, 李秋胜. 台风湍流积分尺度与脉动风速谱——基于实测数据的分析[J]. 自然灾害学报, 2006, 15(5): 45-53.
( XIAO Yiqing, SUN Jianchao, LI Qiusheng．Turbulence integral scale and fluctuationwind speed spectrum of typhoon an analysis based onfield measurements[J]．Journal of Natural Disasters, 2006, 15(5) :45-53.( in Chinese) )
[12] KAIMALJC, IZUMIY, WYNGAARDJ C, et al.Spectral characteristics of surface layer turbulence[J].Quart. J. R.Met. SOC,1972, 98(417):563-589.
[13] CAO S Y, Tamura Y, Kikuchi N, Saito M,et al. Wind characteristics of a strong typhoon[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2009, 97:11-21.
[14] 王旭,黄鹏,顾明. 基于台风“梅花”的近地层脉动风速功率谱及相干性研究[J]. 空气动力学学报, 2013, 31(6): 776-782
(WANG Xu, HUANG Peng, GU Ming. Field measurements for the power spectral densities and spatial coherence of fluctuating wind speed near ground during typhoon Meifa[J].ACTA AERODYNAMICA SINICA,2013, 31(6): 776-782.( in Chinese)