排序方式: 共有4条查询结果,搜索用时 0 毫秒
1
1.
Temporal and spatial distribution characteristics of sea surface wind in Guangdong''s coastal areas were analyzed with data from four offshore observational stations between 2012 and 2015. The results are shown as follows: (1) The probability distribution of wind speed was basically consistent with Gaussian distribution characteristics; winds of Beaufort force 6 or higher were observed mainly in far offshore stations from October to March. (2) The probability distribution of wind direction was represented well by Weibull distribution. The deviation of wind direction of far station was relatively small for it was mainly controlled by monsoon over the South China Sea, while the near offshore station had a relatively large diurnal variation because of the influence of local synoptic systems such as sea-land breeze. (3) There were significant seasonal differences in wind speed and direction observed by different offshore observational stations. In strong wind seasons, the deviation of wind direction was relatively small while the deviation of wind speed was relatively large, and vice versa. In contrast with Class I station, the other three stations exhibited approximately normal distribution of wind direction and wind speed deviations. (4) Wind direction diurnal variation was moderate in windy periods, while it was obvious in relatively lower speed conditions. The deviation of wind speed in windy periods was generally greater because it was influenced by mesoscale weather systems for 10-20 h, and the influence was complicated, resulting in greater local differences in wind speed. 相似文献
2.
3.
基于CFD技术的陡峭山体风场模拟方法研究 总被引:1,自引:0,他引:1
为更好将计算流体力学(CFD)技术应用于陡峭山体的风场模拟研究,文中对其中两个关键技术问题进行了研究,一是适宜的CFD解域顶高问题,二是入流边界条件设置方法问题。研究采用了香港国际机场的多普勒雷达径向速度观测资料,通过CFD模拟结果与观测结果对比验证展开研究。对于解域顶高,一般环境流体力学或建筑风工程领域要求顶高越高越好,例如5倍于地面障碍物的垂直高度,究其原因,主要是为了获得地面障碍物周边的整个流场结构,避免顶边界过低影响障碍物顶部流场的准确性。通过数值试验发现,若模拟关心的区域为较低海拔高度时,不必完全拘泥于该要求,对一座高度为1000m量级的山体进行模拟,顶高为3000和6000m的两组试验在边界层中低部给出的模拟结果没有显著差别。进行了3组边界条件设置方法的对比试验,结果表明单纯采用廓线法不足以充分描述来流信息,二维插值法尽管提供了更高分辨率的边界数据,但其结果总体上逊于0维插值法。研究表明,CFD可以很好地描述山地激发的涡旋/波动脱体运动,比单纯采用中尺度模式效果要好得多。在利用CFD工具研究复杂山地风场时,应本着"实用主义"的精神设置物理模型、参数和选取适当的方法、边界条件,以达到模拟精度和计算量的优化平衡,并足以用于研究所关心的具体问题。 相似文献
4.
The coastal area of southern China is frequently affected by marine meteorological disasters,and is also one of the key areas that influence the short-term climate change of China.Due to a lack of observational facilities and techniques,little has been done in this area in terms of operational weather monitoring and scientific research on atmospheric and marine environment.With the support of China Meteorological Administration (CMA) and Guangdong Meteorological Bureau (GMB),the Marine Meteorological Science Experiment Base (MMSEB) at Bohe,Maoming has been jointly established by Guangzhou Institute of Tropical and Marine Meteorology (GITMM) and Maoming Meteorological Bureau (MMB) of Guangdong Province after three years of hard work.It has become an integrated coastal observation base that is equipped with a complete set of sophisticated instruments.Equipment maintenance and data quality control procedures have been implemented to ensure the long-term,steady operation of the instruments and the availability of high quality data.Preliminary observations show that the data obtained by the MMSEB reveal many interesting features in the boundary layer structure and air-sea interaction in such disastrous weather as typhoons and sea fog.The MMSEB is expected to play an important role in the scientific research of disastrous weather related to marine meteorology. 相似文献
1