首页期刊介绍通知公告编 委 会投稿须知电子期刊广告合作联系我们在线留言
 
青岛近岸一次海陆风过程中大气波导成因的数值研究
作者:刘桂艳1  连喜虎1  高山红2  高松1  白涛1  董琳1  陈莉3 
单位:1. 国家海洋局北海预报中心, 山东 青岛 266033;
2. 中国海洋大学, 山东 青岛 266100;
3. 国家海洋环境预报中心, 北京 100081
关键词:海风 陆风 大气波导 WRF模式 
分类号:P732
出版年·卷·期(页码):2021·38·第四期(19-26)
摘要:
采用新一代区域大气数值模式WRF对2006年8月21日青岛地区一次典型的海陆风过程中的大气波导现象进行了详细的数值模拟研究,以探究海陆风过程中大气波导的形成机理。WRF数值结果较好地再现了海陆风及大气波导的发生发展过程。基于高时空分辨率的WRF数值模拟结果,对海陆风过程中大气波导的形成机制进行了详尽的分析,结果表明:湿度突变层的存在是导致波导发生的主要因素,此次波导过程无逆温层的存在;波导随海风的出现而形成。午后,海陆温差增大,海风在海陆热力性质差异的驱动下形成,并将大量水汽带到近岸,使近岸底层大气相对湿度增大,陆上暖干空气在海风环流作用下向海洋一侧平流,最终在海洋上空下沉,海洋大气边界层发展成为具有稳定层结的热内边界层;同时,下沉的干空气与底层湿空气形成较大的水汽垂直梯度,有利于大气折射指数随高度减小,形成大气波导。海风环流减弱至陆风环流形成发展后,水汽垂直混合均匀,大气波导随之减弱、消失。地形因素对波导的形成作用显著,地形的阻挡使海风携带的大量水汽在向海一侧积聚,在海风环流作用下波导形成于陡峭地形向海一侧。
The atmospheric duct in a typical sea-land breeze process occurred in Qingdao on 21st August, 2006 is investigated using the state-of-the-art WRF. The WRF numerical results reasonably reproduces the occurrence and development of the sea-land breeze and atmospheric duct. Based on the WRF numerical simulation with high temporal and special resolution, a detailed analysis of the formation mechanism of atmospheric duct in the process of sea-land breeze is conducted in this paper. The results show that the existence of the layer with abrupt humidity change is the main factor leading to the occurrence of atmospheric duct, and there is no temperature inversion layer in this duct process. Moreover, the atmospheric duct occurs with the appearance of sea breeze. The land -sea temperature difference increases in the afternoon, and the sea breeze is formed driven by the difference in thermal properties between the sea and the land, which brings a large amount of water vapor to the shore and increases the relative humidity in the bottom atmosphere. Meanwhile, the warm and dry air on land is advected to the ocean side under the influence of sea breeze and sinks over the ocean in the end. The oceanatmosphere boundary layer develops into a thermal inner boundary layer with stable stratification. The sinking dry air and the bottom moist air causes a larger vertical gradient of water vapor, which is favorable to the decrease of atmospheric refractive index along with height and the formation of atmospheric duct. When the sea breeze circulation weakens and the land breeze forms and develops, the water vapor is mixed evenly in the vertical direction, and the atmospheric duct weakens and disappears. Topography plays a significant role on the formation of duct. A large amount of water vapor carried by the sea breeze accumulates on the seaward side due to the terrain obstruction, and the duct is formed on the seaward side of the steep terrain under the influence of the sea breeze circulation.
参考文献:
[1] 王玉国, 吴增茂, 常志清. 辽东湾西岸海陆风特征分析[J]. 海洋预报, 2004, 21(3):57-63.
[2] 陈莉. 中国近海大气波导的统计特征分析及演变机理的数值研究[D]. 青岛:中国海洋大学, 2010.
[3] 张军. 军事气象学[M]. 北京:气象出版社, 2005.
[4] 刘成国, 潘中伟. 低空大气波导的研究状况及前景[J]. 电波与天线, 1996(1):1-6.
[5] Atkinson B W, Li J G, Plant R S. Numerical modeling of the propagation environment in the atmospheric boundary layer over the Persian Gulf[J]. Journal of Applied Meteorology and Climatology, 2001, 40(3):586-603.
[6] Atkinson B W, Zhu M. Coastal effects on radar propagation in atmospheric ducting conditions[J]. Meteorological Applications, 2006, 13(1):53-62.
[7] Zhu M, Atkinson B M. Simulated climatology of atmospheric ducts over the persian gulf[J]. Boundary-Layer Meteorology, 2005, 115(3):433-452.
[8] 吴增茂, 龙宝森. 青岛局地风特征的分析[J]. 海洋湖沼通报, 1993(1):16-22.
[9] 常志清, 吴增茂, 高山红. 青岛海陆风三维结构的数值模拟[J]. 青岛海洋大学学报, 2002, 32(6):877-883.
[10] 高荣珍, 林行, 孙贞. 青岛近海夏季海风特征及其预报方法研究[J]. 中国海洋大学学报, 2008, 38(5):699-704.
[11] 黄容, 漆梁波, 李庆宝, 等. 青岛近海夏季海风分型及预报[J]. 气象, 2008, 34(S1):223-229.
[12] 盛春岩, 陈优宽. 2006年8月青岛一次强海风过程"人"字形结构分析[J]. 气象, 2007, 33(8):35-39.
[13] 盛春岩, 王建林, 刁秀广. 2006年8月青岛国际帆船赛期间海陆风特征及三维结构分析[J]. 中国海洋大学学报, 2007, 37(4):609-614.
[14] 蔺发军, 王红光, 林乐科, 等. 风向对蒸发波导环境特性影响的研究[J]. 电波科学学报, 2007, 22(3):410-413.
[15] Burk S D, Thompson W T. Mesoscale modeling of summertime refractive conditions in the southern California Bight[J]. Journal of Applied Meteorology and Climatology, 1997, 36(1):22-31.
[16] 韩杰, 张玉生, 康士峰, 等. 利用MM5V3模式模拟大气波导产生的准确率分析[J]. 海洋预报, 2012, 29(2):68-72.
[17] 孙贞, 高荣珍, 张进, 等. 青岛地区8月一次海风环流实例分析和WRF模拟[J]. 气象, 2009, 35(8):76-84.
[18] 高山红, 齐伊玲, 张守宝, 等. 利用循环3DVAR改进黄海海雾数值模拟初始场I:WRF数值试验[J]. 中国海洋大学学报, 2010, 40(10):1-9.
[19] Bean B R, Dutton E J. Radio meteorology[M]. New York:Dover Publication Inc., 1968.
服务与反馈:
文章下载】【发表评论】【查看评论】【加入收藏
 
 海洋预报编辑部 地址:北京海淀大慧寺路8号 电话:010-62105776
投稿网址:http://www.hyyb.org.cn
邮箱:bjb@nmefc.cn
本系统由北京博渊星辰网络科技有限公司设计开发 技术支持电话:010-63361626