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科学通报 2011

复杂构型非孤立圆涡的能量频散

, PP. 2599-2603

罗哲贤

Keywords: 涡旋,热带气旋,复杂构型,能量频散,波列

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Abstract:

能量频散是一个基础性的科学问题,与台风、暴雨、地震等灾害密切相关,一直受到多学科研究人员和广大预报员的关注.孤立圆涡能量频散的动力学己经清楚.但是,造成天气灾害的往往是非孤立圆涡.非孤立圆涡能量频散的动力学尚待探索.本文用线性化的正压无幅散涡度方程,研究了非孤立圆涡能量频散的特征.这里,非孤立圆涡指的是一个热带气旋(TC)涡旋和一个中尺度涡构成的复杂构型.基于傅里叶变换的解析解和基于空间差分格式的数值解一致地显示(1)在只有TC涡旋的条件下,涡旋能量频散形成一个TC-G-D的波列,3个波列成员中心的连线是一条与x轴平行的直线.这里,“G”和“D”分别代表高值和低值系统.(2)在非孤立圆涡的条件下,涡旋能量频散也形成了一个TC-G-D的波列,但是,3个波列成员中心的连线不再是一条与x轴平行的直线,而是一个三角形.(3)三角形底角的角度与初始中尺度涡的强度之间存在非线性联系.这些结果在台风预测中具有应用前景.

References

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[2]	Carr L E, Elsberry R L. Objective diagnosis of binary tropical cyclone interactions for the western north Pacific basin. Mon Weather Rev, 1998, 126: 1734-1749 [2] 丛春华. 热带气旋远距离暴雨的硏究. 博士学位论文. 北京: 中国气象科学研究院, 2011. 10-17 [3] Yeh T C. On energy dispersion in the atmosphere. J Meteorol, 1949, 6: 1-16 [4] 伍荣生, 党人庆, 余志豪, 等. 动力气象学. 上海: 上海科学技术出版社, 1983. 75-114 [5] 东, 丁一汇, 柳艳菊. 中国梅雨雨带年代际尺度上的北移及其原因[J].科学通报.2010, 55:68-73？？浏览 [6] Chan J C L, Williams R T. Analytical and numerical studies of the beta-effect in tropical cyclone motion. Part 1: Zero mean flow. J Atmos Sci, 1987, 44: 1257-1265 [7] 罗哲贤. 能量频散对台风结构和移动的作用. 气象学报, 1994, 52: 149-156 [8] Carr C E, Elsberry R T. Monsoonal interactions leading to sudden tropical cyclone track changes. Mon Weather Rev, 1995, 123: 265-289 [9] 徐祥德, 陈联寿. TCM-90 現场试验台风能量频散波列特征. 气象学报, 1998, 56: 129-138 [10] Li T, Fu B. Tropical cyclogenesis associated with Rossby wave energy dispersion of a preexisting typhoon. Part I: Satellite data analyses. J Atmos Sci, 2006, 63: 1377-1389 [11] Li T, Ge X Y, Wang B, et al. Tropical cyclogenesis associated with Rossby wave energy dispersion of a preexisting typhoon. Part II: Numerical simulations. J Atmos Sci, 2006, 63: 1390-1409 [12] Ge X, Li T, Zhou X Q. Tropical cyclone energy dispersion under vertical shears. Geophys Res Lett, 2007, 34: L23807 [13] Ge X, Li T, Peng M S. Cyclogenesis simulation of typhoon Prapiroon(2000) associated with Rossby wave energy dispersion. Mon Weather Rev, 2010, 138: 42-54 [14] 罗忠红. 利用卫星云图和天气形势分析9914 号台风路径. 台湾海峡, 2001, 20: 426-428 [15] 穆文锋, 万卫星, 任志鹏, 等. 电离层经度变化波数谱成分与高层大气潮汐模的相关性[J].科学通报.2011, 56:35-43？？浏览 [16] Asselin R. Frequency filter for time integrations. Mon Weather Rev, 1972, 109: 18-36 [17] 罗哲贤. 副热带高圧脊南侧东风气流中双台风的相互作用. 气象学报, 2001, 59: 450-458
[3]	Carr L E, Elsberry R L. Objective diagnosis of binary tropical cyclone interactions for the western north Pacific basin. Mon Weather Rev, 1998, 126: 1734-1749
[4]	丛春华. 热带气旋远距离暴雨的硏究. 博士学位论文. 北京: 中国气象科学研究院, 2011. 10-17
[5]	Yeh T C. On energy dispersion in the atmosphere. J Meteorol, 1949, 6: 1-16
[6]	伍荣生, 党人庆, 余志豪, 等. 动力气象学. 上海: 上海科学技术出版社, 1983. 75-114
[7]	东, 丁一汇, 柳艳菊. 中国梅雨雨带年代际尺度上的北移及其原因[J].科学通报.2010, 55:68-73？？浏览
[8]	Chan J C L, Williams R T. Analytical and numerical studies of the beta-effect in tropical cyclone motion. Part 1: Zero mean flow. J Atmos Sci, 1987, 44: 1257-1265
[9]	罗哲贤. 能量频散对台风结构和移动的作用. 气象学报, 1994, 52: 149-156
[10]	Carr C E, Elsberry R T. Monsoonal interactions leading to sudden tropical cyclone track changes. Mon Weather Rev, 1995, 123: 265-289
[11]	徐祥德, 陈联寿. TCM-90 現场试验台风能量频散波列特征. 气象学报, 1998, 56: 129-138
[12]	Li T, Fu B. Tropical cyclogenesis associated with Rossby wave energy dispersion of a preexisting typhoon. Part I: Satellite data analyses. J Atmos Sci, 2006, 63: 1377-1389
[13]	Li T, Ge X Y, Wang B, et al. Tropical cyclogenesis associated with Rossby wave energy dispersion of a preexisting typhoon. Part II: Numerical simulations. J Atmos Sci, 2006, 63: 1390-1409
[14]	Ge X, Li T, Zhou X Q. Tropical cyclone energy dispersion under vertical shears. Geophys Res Lett, 2007, 34: L23807
[15]	Ge X, Li T, Peng M S. Cyclogenesis simulation of typhoon Prapiroon(2000) associated with Rossby wave energy dispersion. Mon Weather Rev, 2010, 138: 42-54
[16]	罗忠红. 利用卫星云图和天气形势分析9914 号台风路径. 台湾海峡, 2001, 20: 426-428
[17]	穆文锋, 万卫星, 任志鹏, 等. 电离层经度变化波数谱成分与高层大气潮汐模的相关性[J].科学通报.2011, 56:35-43？？浏览
[18]	Asselin R. Frequency filter for time integrations. Mon Weather Rev, 1972, 109: 18-36

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