首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到19条相似文献,搜索用时 140 毫秒
1.
春季华南沿海海-气边界层动力参数的观测研究   总被引:1,自引:0,他引:1  
通过对珠江口海岸边近地面边界层的观测资料的研究,发现该海岸带春季大气层结呈中性或近中性状态,强稳定或者强不稳定天气过程较少;摩擦速度不仅和稳定度有关,而且随平均风速呈线性增加,地形引起的扰动对它的离散性影响较大;无因次风速方差满足相似规律并符合“1/3”次方定律,在中性或者近中性条件下,u,v,,w3个方向分量的相似函数为常数:3.06、2.56、1.33;湍流强度在风速达到4~6 m/s时最弱,且变化不明显,在自由对流状态(风速小于2m/s)时湍流发展最旺盛,风速大于6 m/s时随风速增大略有增加,水平分量比垂向分量的增幅明显;海面空气动力粗糙度在距离海面10 m高处风速为3.0 m/s时最小,其与风速成二次曲线关系;中性或近中性条件下拖曳系数平均值为1.180×10-3,与风速的关系在小于4 m/s和大于4 m/s时不同,且有不同的拟合关系式.  相似文献   

2.
风荷载是影响海洋结构物设计和安全服役最为显著的环境因素之一。利用在役海洋平台监测系统对渤海风速场展开长期监测,获得了长期的风速信息。对极值风速进行分析,利用极值Ⅰ、Ⅱ、Ⅲ型分布对风速极值的概率密度进行拟合。基于极值Ⅰ型概率分布,获得了渤海海域重现期为5 a、10 a、30 a和50 a的最大风速值。对年最大风速的脉动风分量、湍流强度、阵风因子进行了分析。考虑高频分量的影响,利用小波变换,得到了脉动风速的近似分量和细节分量,计算了实测风速的纵向和横向的空间积分尺度。对比经验脉动风谱与实测脉动风谱,证明了Davenport风速谱能够较好地拟合渤海现场风速场。  相似文献   

3.
北黄海海域大气湍流强度特征及风速标准差相似性分析   总被引:1,自引:1,他引:0  
根据国家海洋局"908"专项北黄海海区海洋气象观测资料,计算了2007~2008年间该海区4个不同季节的大气湍流强度并与其他海区及陆地下垫面大气湍流值相比较.北黄海海区大气湍流强度量级为10-2,比陆地下垫面大气湍流强度低一个量级.由于海洋的特殊性质,对秋季大气湍流强度日变化的分析发现,在大气湍流强度的影响因素中,海洋的热力作用相对较大.对水平方向风速标准差是否满足Monin-Obukhov相似关系进行了探讨,数据显示,在不稳定层结下冬季水平方向无量纲风速标准差与Z/L的关系,基本满足1/3次方律.秋冬在不稳定层结下垂直方向风速标准差满足Monin-Obukhov相似理论.  相似文献   

4.
2006年夏季珠江口外海域船基海气通量观测资料质量评估   总被引:1,自引:1,他引:0  
2006年夏季在珠江口外海域进行了143个站位的海气通量船基观测.设计了一个剔除船速的滤波器及资料处理程序,对观测资料进行了处理.通过对垂向观测风速的平均值、湍流功率谱、观测通量值的计算,得出该次观测方法是不可取的.设备安置在船舷外,气流绕过船体时形成上升气流并干扰了湍流场,测得的垂向平均风速不为零,一般存在0.2-1.0m·s-1的垂向平均风速,无量纲湍流功率谱在惯性次区不符合f-2/3次律,通过涡动相关法计算的动量通量远大于块体动力学公式的计算结果.今后的船基通量观测需要选取好设备安装位置及安装高度.  相似文献   

5.
针对海气通量观测中存在的气流扰动等非湍流信号影响风速脉动进而导致涡相关通量计算失真的问题,借用惯性耗散法的思想进行了资料处理技术的改进性研究.以湍流惯性耗散的-5/3密率分布为依据,获得了一种滤除非湍流信号的新途径.以动量通量的计算为例,从对实测风速数据的处理情况来看,其结果与经验公式所得吻合得非常好.相比于通常的通量计算软件来说,该资料处理技术能极大地降低非湍流信号的影响并由此得出更为可靠的通量结果.从而,此技术可以用于新通量算法软件的研究和开发.  相似文献   

6.
利用船载涡动相关系统的走航观测资料,分析了北黄海海域大气边界层湍流特征,并初步讨论了走航观测方式的可行性。观测资料中,风速脉动功率谱有异常高值,经船体运动校正后可以去除。北黄海海域大气边界层中无量纲风速标准差与稳定度之间存在1/3次方关系;依据走航资料得到的拖曳系数与定点观测结果之间存在一定差异,但它们与风速之间的关系具有一致性。依据相似性理论并通过与定点观测结果的对比可见,走航观测方式能够获得海洋大气边界层的湍流特征,但走航观测资料在船体运动校正后出现低频功率谱值增大的现象,这可能与船体平移的低频变化未能被完全去除有关。  相似文献   

7.
利用1992—2002年的温盐深数据与2012—2016年的Argo数据,基于细尺度参数化方法研究了吕宋海峡及周边海域(12°—30°N,115°—129°E)湍流混合的时空分布特征,并分析了地形粗糙度、内潮以及风输入的近惯性能通量对湍流混合的影响。结果表明,吕宋海峡和东海陆坡处具有强混合的特征,扩散率高达4×10~(-3) m~2/s,主要是由内潮产生导致的,其中吕宋海峡主要是M2、K1和O1内潮的贡献,而东海陆坡处主要是M_2内潮的贡献;南海北部也呈现较强的混合,且陆坡处的混合比海盆高1—2个量级;南海中央海盆和离岸的菲律宾海混合较弱,扩散率为O (10-5 m2/s)。此外,在研究区域内,湍流混合的年际变化和季节变化均不明显,且混合扩散率与风输入的近惯性能通量未表现出明显的季节相关。  相似文献   

8.
海洋中的跨等密度面湍流混合对于热量和淡水输送、翻转环流以及全球气候变化都有重要影响,理解跨等密度面湍流混合的变化对于改进气候模式模拟和预测大尺度海洋环流的能力具有重要作用。基于细尺度参数化方法,本文利用黑潮延伸体区的一个长期潜标K7观测,对跨等密度面湍流混合的次季节变化进行了分析。结果表明,在2004年6~9月, 300~1 350 m的耗散率存在明显的逐月变化, 8月份的平均耗散率为2.7×10-9m2/s3,约为其他月份的2~3倍。跨等密度面湍流混合的这一显著的次季节变化与由风生近惯性内波引起的近惯性剪切的次季节变化密切相关。特别地,在8月中旬,局地风尽管较弱但生成了较强的近惯性内波,在负地转涡度促进下,近惯性内波向下穿透可达1 300 m。能量收支分析显示, 8月总的风生近惯性能量是1.7×103W/m2,其中71%能够进入深海,为跨等密度面湍流耗散提供了52%的能量。该研究为风生近惯性内波在调制深海跨等密度面湍流混合低频变化中的重要作用提供了一个直接依据。  相似文献   

9.
为探索反演湍流耗散率的最优方法,促进湍流规律和机理研究以及相关方法的业务化应用,文章根据风廓线雷达和无线电-声探测系统的探测原理,选取实例数据,通过虚温计算的布维频率和大气湍流引起的谱宽反演湍流耗散率。研究结果表明:该方法较为有效和简便,适用于加装无线电-声探测系统的风廓线雷达;湍流耗散率并不完全随高度增加而递减,而存在某高度层内湍流较强的现象;湍流耗散率与大气稳定度相互影响。  相似文献   

10.
利用有效波高和风速的3种概率密度函数分布:Rayleigh概率密度函数分布、Weibull概率密度函数分布、Log-Normal密度函数分布,结合TOPEX卫星高度计资料,对台湾岛周边海域的有效波高和风速进行分析比较.结果表明:有效波高的观测资料直方图与Log-Normal概率密度函数分布符合较好;而风速的观测资料直方图与Weibull概率密度函数分布符合较好.台湾岛周边海域的大部分海域以年变化为主,有效波高的平均值在冬季达到最大值,每年12月的平均值最大.每年平均有效波高最大值大多数出现在夏季,春季则是一年中有效波高平均值最小的季节,秋季和冬季则是巨浪出现频率较高的季节.同时,对有效波高平均值的时间序列做傅立叶展开表明,对应周期为1 a变化时的波动能量占每条轨道的波高波动能量的主要分量.  相似文献   

11.
Rainfall effect on wind waves and the turbulence beneath air-sea interface   总被引:1,自引:0,他引:1  
Rainfall effects on wind waves and turbulence are investigated through the laboratory experiments in a large wind-wave tank. It is found that the wind waves are damped as a whole at low wind speeds, but are enhanced at high wind speeds. This dual effect of rain on the wind waves increases with the increase of rain rate, while the influence of rainfall-area length is not observable. At the low wind speed, the corresponding turbulence in terms of the turbulent kinetic energy (TKE) dissipation rate is significantly enhanced by rain- fall as the waves are damped severely. At the high wind speed, the augment of the TKE dissipation rate is suppressed while the wind waves are enhanced simultaneously. In the field, however, rainfall usually hin- ders the development of waves. In order to explain this contradiction of rainfall effect on waves, a possibility about energy transfer from turbulence to waves in case of the spectral peak of waves overlapping the inertial subrange of turbulence is assumed. It can be applied to interpret the damping phenomenon of gas trans- fer velocity in the laboratory experiments, and the variation of the TKE dissipation rates near sea surface compared with the law of wall.  相似文献   

12.
利用渤海湾北岸祥云岛岸基站2017—2018年观测数据和两座梯度测风塔2011—2013年观测资料分别分析了当地海陆风和湍流强度特征,并重点对不同天气系统所致大风条件下的湍流强度特点做了剖析。结果表明:渤海湾北岸海陆风特征明显,昼夜风向主要由SSW向ENE转变,夏季昼夜风向转换尤为显著。整体而言,风速和湍流强度随高度增大分别呈增大、减小趋势,且近海面层湍流强度小于近地层湍流强度。湍流强度具有显著的季节性特征,夏季大、冬季小、春秋季变化不明显,且近海面层湍流强度相对近地层变化平缓。近海面层70 m及以下湍流强度在偏东大风条件下反而比近地层湍流强度大,雷雨大风期间近海面层和近地层均出现湍流强度随高度增大而增大、风速随高度增大而减小的特殊情况,台风靠近风塔时各层风速显著增大、湍流强度变化不明显,但台风中心到达时湍流强度迅速增至峰值,二者时间一致并早于风速最小值出现时间约1 h。近海面层和近地层有8%~10%样本的湍流强度超出了IEC-61400设计标准,建议渤海湾北岸风力发电风机抗湍流参数调整至0. 43~0. 49。  相似文献   

13.
本文利用2010年6-7月的实测温盐、水位、海流等资料,结合风场数据,讨论了在台风影响较小的情况下,粤东及闽南近岸上升流对局地风场变化的响应特征,主要结论如下:(1)谱分析结果显示,沿岸风、水位、海流、近底层水温均具有3.5~4.0 d、5.0~5.5 d、8.3~9.0 d的波动周期,沿岸风的变化引起上升流强度在3~9 d周期上的波动;(2)上升流对局地风场变化的响应过程如下:利于上升流产生的局地风场发生变化时,沿岸风作用下产生的Ekman输运促使的上升流区水位的下降幅度发生改变,随即向岸方向的压强梯度力也发生变化,进而导致沿岸流及近底层向岸流的增强或减弱,而近底层向岸流强度的改变又会引起近底层水温的变化;(3)相关分析及交叉谱分析的结果表明,沿岸风的变化将在3 d以内影响上升流区近底层水温。以34 m向岸流代表近底层向岸流,则“沿岸风-水位-近底层向岸流-近底层水温”这一过程的响应时间依次为24 h、7 h、27 h左右。  相似文献   

14.
东南极Princess Elizabeth冰盖近地层大气参数的年变化特征   总被引:4,自引:0,他引:4  
利用2002年东南极Princess Elizabeth冰盖自动气象梯度观测点获得的近地层气象资料,分析了冰盖上的感热通量、潜热通量、大气稳定度、整体输送系数及有关气象要素特征,并与中山站同期的的气象要素进行了对比分析.结果表明,由于两站的海拔高度及地理位置的差异,LGB69站的年平均气温为-25.6℃,比中山站低16.4℃,进入内陆每10km,海拔高度上升约110m,温度下降约1℃.南极内陆冰盖的湍流热通量具有明显的年变化,感热通量年平均值为-17.9W/m2,潜热通量为-0.9W/m2,年平均冷源强度(Qh+Qe)为-18.8W/m2,表明地表从大气吸收热量.LGB69站近地层大气以近中性层结为主,中性层结下的整体输送系数为2.6×10-3,当风速大于8m/s后,整体输送系数趋于常数.LGB69站是南极地区典型下降风区,年平均风速比中山站大2.0m/s,其下降风出现的风向频和风速均大于中山站.  相似文献   

15.
The variability of the sea surface wind and wind waves in the coastal area of the Eastern Tsushima Strait was investigated based on the hourly data from 1990 to 1997 obtained at a station 2 km off Tsuyazaki, Fukuoka. The annual mean wind speed was 4.84 m s−1, with strong northwesterly monsoon in winter and weak southwesterly wind in summer. Significant wave heights and wave periods showed similar sinusoidal seasonal cycles around their annual means of 0.608 m and 4.77 s, respectively. The seasonal variability relative to the annual mean is maximum for wave heights, medium for wind speeds, and minimum for wave periods. Significant wave heights off Tsuyazaki turned out to be bounded by a criterion, which is proportional to the square of the significant wave period corresponding to a constant steepness, irrespective of the season or the wind speed. For terms shorter than a month, the significant wave height and the wave period were found to have the same spectral form as the inshore wind velocity: white for frequencies less than 0.2 day−1 and proportional to the frequency to the −5/3 power for higher frequencies, where the latter corresponds to the inertial subrange of turbulence. The spectral levels of wave heights and wave periods in that inertial range were also correlated with those of the inshore wind velocity, though the scatter was large. This revised version was published online in August 2006 with corrections to the Cover Date.  相似文献   

16.
几种经典海洋环境噪声谱分析   总被引:1,自引:0,他引:1  
目前风关海洋环境噪声实验研究结果较多,其中较为经典的是Knudsen谱、Wenz谱、Piggott谱、Crouch谱,以及风速与噪声谱级的对数关系等。对这几种经典的海洋环境噪声谱进行了概述,分析了其数据来源,并对Wenz谱、Piggott谱和Crouch谱进行了比较,探究了其差异产生的原因,并给出了不同情况下进行风关海洋环境噪声估计时的参考建议。  相似文献   

17.
A bottom-mounted instrumental tripod was deployed in the tidally energetic Zhujiang (Pearl River) Estuary to examine the contrasting properties of the bottom boundary layer (BBL) flows between estuarine and tide-affected river systems. Three aspects of the BBL flows were investigated to understand the mechanism of the turbulence responses to the large-scale ambient forcing: the flow structures (profile, anisotropy, and spectra), shearing strains and stresses, and the balance of turbulent kinetic energy (TKE). Single log-law profiles and turbulence anisotropy predominated in the two systems, but the non-log regime and stronger anisotropy occurred more frequently at the slack tide in the estuary. The ADV-based turbulence intensities and shearing strains both exceeded their low-frequency counterparts (frictional velocities and mean shears) derived from the logarithmic law. On the contrary, the ADV-based Reynolds stresses were smaller than the log profile-derived bottom stresses, so the hypothesis of a constant stress layer cannot be well satisfied, especially in the river. The bandwidth of the inertial subrange in the river was of one decade larger than in the estuary. The balance between shear production and viscous dissipation was better achieved in the straight river. This first-order balance was significantly broken in the estuary and in the meandering river, by non-shear production/dissipation due to wave-induced fluctuations or salinity/sediment stratification. All these disparities between two systems in turbulence properties are essentially controlled by the anisotropy induced by the large-scale processes such as secondary currents, density stratification. In conclusion, the acceleration of unsteady flows determines the profile structure of the BBL flow, and turbulence anisotropy results in the invalidation of the phenomenological relations such as the constant stress hypothesis and the first-order TKE balance.  相似文献   

18.
The upper ocean response to a moving typhoon   总被引:1,自引:0,他引:1  
The upper ocean response to the translation speed of typhoons is studied using a three-dimensional primitive equation model. Similar models studied previously have applied stability criteria rather than the diffusion term to simulate the vertical mixing process. This study retains the diffusion term and uses the level-2 turbulence closure scheme to estimate the vertical eddy viscosity. The model results indicate that in the forced period, the mixed-layer temperature decrease is greater for a slow-moving storm due to stronger upwelling caused by the longer residence time. A fast-moving storm can attain a similar cooling intensity in the wake period if its residence time allows the wind to resonate with the current. The significant downward momentum diffusion and advection in the first few inertial periods of these events leads to strong, persistent inertial pumping throughout the upper ocean in the wake period. The mixed layer is further cooled by turbulent mixing supported by vertical current shears. Meanwhile, the upper thermocline exhibits a compensating temperature increase. The vertical transfer magnitude and penetration scale are smaller in the slow-moving case, when the inertial motion decays rapidly. The model results also indicate that the dominant cooling process can be inferred from the non-dimensional storm speed. However, this value may be misleading for rapidly moving storms in which the current response is so distant from the storm that little wind work is performed on the ocean.  相似文献   

19.
A new model developed from the full-spectrum model of Lyzenga and Bennett ( 1988 ) is built up by us preliminarily through considering the impact of the ocean surface mixed layer turbulence on SAR remote sensing of internal solitary waves. In the partial differential equation of the action spectral density of the surface gravity-capillary waves the source function representing the contribution of the turbulence is added besides the usual source function representing the contribution of the wind. The source function is determined by applying the κ - ε model and adopting the Nasmyth spectrum of oceanic turbulence ( Nasmyth, 1970; Oakey, 1982; Fan, 2002) on the basis of the previous simulation results of internal tide transformation obtained in the companion paper (Fan et al. ,2008). Either under relatively high wind speed, or under low wind speed, our model predicts significant large modulations of radar backscatter at all three bands ( L, C and X bands) for both VV and HH polarization. These results prove that considering the impact of ocean surface mixed layer turbulence on SAR remote sensing of internal solitary waves is reasonable and appropriate for settlement of the well-known problem of contemporary radar imaging models.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号