The Evolution on Research and Operational Forecasting Techniques of Tropical Cyclones

Chen Lianshou

Vol.17, NO.6, 2006

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Chen Lianshou. The evolution on research and operational forecasting techniques of tropical cyclones. J Appl Meteor Sci, 2006, 17(6): 672-681.

Citation:

Chen Lianshou. The evolution on research and operational forecasting techniques of tropical cyclones. J Appl Meteor Sci, 2006, 17(6): 672-681.

Chen Lianshou. The evolution on research and operational forecasting techniques of tropical cyclones. J Appl Meteor Sci, 2006, 17(6): 672-681.

Citation:

Chen Lianshou. The evolution on research and operational forecasting techniques of tropical cyclones. J Appl Meteor Sci, 2006, 17(6): 672-681.

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The Evolution on Research and Operational Forecasting Techniques of Tropical Cyclones

Chen Lianshou

Chinese Academy of Meteorological Sciences, Beijing 100081

Received Date: 2006-11-30
Publish Date: 2006-12-31

Abstract

Abstract

Heavy rainfall, storm surges and strong winds brought about by tropical cyclones are an acute natural disaster which will result in severe damages of loss of lives and properties. Accurate forecasts and warnings on tropical cyclone activities are one of the major responsibilities for tropical cyclone forecasters and researchers.Tropical cyclone has been studied systematically in China in this half century including various topics of tropical cyclone motion and its forecasting techniques, formation and extratropical transition, structure and intensity change, tropical cyclone landfalling and abrupt change in this stage, sustaining and decaying over land, rain/wind distribution etc. The research achievements from Chinese Academy of Meteorological Sciences (CAMS) in this half century are reviewed for her 50-year anniversary. Other research works related to CAMS could be raised but it is not a comprehensive summary at all.The research methodology and technical strategy with CAMS are advanced in different era. Mathematical-physical statistics, mechanism analysis with synoptic-dynamical theory, numerical simulation, physical diagnostics and field experiment programs etc. are employed in the research programs and play an critical role to advance the tropical cyclone researches in the nation.Another characteristic of the research in CAMS is to integrate the theory with practice, to integrate the research with operational needs, to transfer the research achievements to operational forecast. One of the scientific objectives for CAMS is to raise the operational capacity of tropical cyclone forecasting.Several decades ago, scientists treated tropical cyclone as a particle without volume because people don't know much about the detail structure of it due to lack of data in the vicinity of storms. Motion forecast depends on the environmental steering derived from one layer barotropic model. Now motion forecast can be done by the high resolution global spectral model with data assimilation and bogussing tropical cyclone in CAMS. This technical variation cost 50 years or so. This also reflects the progress and advances of remotely sensed techniques and computer capacity in this time span.A serial field programs carried out by CAMS in the past 2 decades are helpful for the research programs on the sudden change in motion, intensity and rainfall of coastal typhoons and landfalling tropical cyclone studies. Relevant research achievements would be transferred to operational communities.Scientific cooperation and coordination especially the international cooperation are needed for the tropical cyclone research in CAMS. The technical cooperation between CAMS and operational centers are more important and beneficial for both sides. Some of the achievements are the common results of the cooperation, which should be explored and developed in the future research programs.
- tropical cyclone;
- research and forecast;
- field experiments

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References(41)

Figures and Tables

图 1 SPECTRUM-90目标试验台风路径图

(粗实线为加密观测 (IOP) 的时段)

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图 2 台风与中尺度小涡 (MSV) 合并使台风中心气压下降

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图 3 台风Zeke影响前后850 hPa的水汽矢量场

(a) 1991年7月6日, (b) 1991年7月13日

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References

[1]	董克勤, 李曾中, 张婉佩, 等.两层订正引导台风预报方案的初步应用.气象科技资料, 1976, (8): 19-21. http://www.cnki.com.cn/Article/CJFDTOTAL-QXKJ197608008.htm
[2]	徐祥德, 陈联寿. TCM-90现场科学试验台风Flo"β陀螺""通风流"非对称动力结构特征.气象学报, 1998, 54(4) :536-543. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXB605.002.htm
[3]	Meng Zhiyong, Nagata Masashi, Chen Lianshou. A numerical study on the formation and development of island-induced cyclone and its impact on typhoon structure change and motion. Acta Meteorologica Sinica, 1996, 10(4): 430-443. http://www.cqvip.com/QK/88418X/199604/1004872797.html
[4]	Luo Zhexian, Chen Lianshou. Effect of the orography of Taiwan Island on typhoon tracks. Chinese Journal of Atmospheric Sciences, 1995, 19(4): 390-396.
[5]	Chen Lianshou, Luo Zhexian. Some relations between asymmetric structure and motion of typhoons. Acta Meteorologica Sinica, 1995, 9(4):412-419. http://www.cqvip.com/QK/88418X/199504/3001205429.html
[6]	Chen Lianshou, Luo Zhexian. Numerical study on function affecting tropical cyclone structure and motion. Acta Meteorologica Sinica, 1998, 12(4): 504-512.
[7]	徐晶, 陈联寿.青藏高原高空流型对面北太平洋台风路径的影响的诊断分析.应用气象学报, 1999, 10(4): 410-420.
[8]	范永祥.台风现场科学业务试验综述∥台风科学、业务试验和天气动力学理论研究 (一).北京:气象出版社, 1996: 1-113.
[9]	郑庆林.北半球七层谱模式 (三) 及其五天数值预报试验结果.气象科学研究院院刊, 1989, 4(1): 1-12. http://www.cnki.com.cn/Article/CJFDTOTAL-YYQX198901000.htm
[10]	王诗文.国家气象中心台风数值模式的改进及其应用试验.应用气象学报, 1999, 10(3): 347-353. http://qikan.camscma.cn/jams/ch/reader/view_abstract.aspx?file_no=19990384&flag=1
[11]	陈德辉, 薛纪善.数值天气预报业务模式现状与展望.气象学报, 2004, 62(5): 623-633. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXB200405009.htm
[12]	许健民, 张其松, 王大昌, 等.云迹风计算中的两个几何问题.应用气象学报, 1997, 8(1): 11-18. http://qikan.camscma.cn/jams/ch/reader/view_abstract.aspx?file_no=19970102&flag=1
[13]	李宪之.减轻几种主要自然灾害的途径∥仇永炎.寒潮台风灾害———庆贺李宪之教授九十五华诞文集.北京:气象出版社, 2001: 1-661.
[14]	李曾中.对1981年台风形成发展与赤道西风关系的初步分析∥1983年全国台风学术会议论文集.上海:科学技术出版社, 1986: 49-61.
[15]	刘辉, 董克勤.环境温度场对台风等扰动发展和移动的影响.气象学报, 1987, 45(2): 188-194. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXB198702007.htm
[16]	张婉佩.西北太平洋、南海热带扰动发展与不发展的对比分析∥1978年台风会议文集.上海:上海科技出版社, 1981: 240-245.
[17]	徐祥德, 陈联寿, 解以扬, 等.环境大尺度锋面系统与变性台风结构特征及其暴雨特征.大气科学, 1998, 22(5): 743-752. http://www.cnki.com.cn/Article/CJFDTOTAL-DQXK805.008.htm
[18]	钮学新.不稳定状态下惯性重力波对热带气旋发生发展和移动的作用.海洋学报 (中文版), 1991, 49(3): 325-332 http://www.cnki.com.cn/Article/CJFDTOTAL-SEAC199103003.htm
[19]	雷小途.热带气旋与中纬度环流系统的相互作用.北京:中国气象科学研究院, 2001.
[20]	陈善敏.1983年TOPEX期间红外增强显示卫星云图使用方法及其误差检验∥上海台风研究所.台风业务试验研究文集.北京:气象出版社, 1986: 154-159.
[21]	张胜军, 徐祥德, 吴庆梅, 等. "中国登陆台风外场科学试验"风廓线仪探测资料在四维同化中的初步应用研究.应用气象学报, 2004, 15(增刊): 101-109. http://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFD2004&filename=YYQX2004S1014&v=MjI5MjBQRFRhZHJHNEh0V3ZybzlFWUlSOGVYMUx1eFlTN0RoMVQzcVRyV00xRnJDVVJMMmZaT1JuRnlybVVyN0E=
[22]	曾静.登陆台风衰减的数值模拟研究.北京:中国气象科学研究院, 1999.
[23]	胡春梅, 端义宏, 余晖, 等.华南地区热带气旋登陆前强度突变的大尺度环境诊断分析.热带气象学报, 2005, 21(4): 377-382. http://www.cnki.com.cn/Article/CJFDTOTAL-RDQX200504004.htm
[24]	李英, 陈联寿, 徐祥德.水汽输送对登陆台风维持机制的数值试验.大气科学, 2005, 29(1): 91-98. http://www.cnki.com.cn/Article/CJFDTOTAL-DQXK200501010.htm
[25]	端义宏.海洋及环境流场对热带气旋强度变化的影响研究.南京:南京大学, 2004.
[26]	Chen Lianshou, Luo Zhexian. Interaction of typhoon and mesoscale vortex. Adv Atmos Sci, 2004, 21(4): 515-528. doi: 10.1007/BF02915719
[27]	闫敬华, 丁伟钰, 陈子通, 等.热带气旋"黄蜂"动热力特征演变的模拟分析.热带气象学报, 2003, 19(增刊): 12-24. http://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFD2003&filename=RDQX2003S1001&v=MTY4NzF2cm85RlpZUjhlWDFMdXhZUzdEaDFUM3FUcldNMUZyQ1VSTDJmWk9SbkZ5cm1VNzNKTnluYWRyRzRIdEs=
[28]	李英.登陆台风维持与衰减的机制研究.北京:中国气象科学研究院, 2004.
[29]	李曾中.对南海岛登陆台风的研究∥1978年台风会议文集.上海:上海科技出版社, 1981: 110-116.
[30]	Peng Taoyong, Joe Kwon H, Lee Woo-Jin, et al. A systematic approach to tropical cyclone track forcasting. Kybernetes, The International Journal of Systems & Cybernetics, 2005, 34(5) : 681-693. doi: 10.1108/03684920510595364
[31]	朱洪岩, 陈联寿, 徐祥德.台风与中纬度相互作用及其暴雨特征的模拟研究.大气科学, 2000, 24(5): 669-675. http://www.cnki.com.cn/Article/CJFDTOTAL-DQXK200005012.htm
[32]	Cheng Zhaohui, Kang Di, Chen Lianshou, et al. Interaction between tropical cyclone and Meiyu front. Acta Meteorologica Sinica, 1998, 13(1) : 35-46. http://www.cqvip.com/QK/88418X/199901/3000873908.html
[33]	段丽, 陈联寿.热带风暴"菲特" (0114) 特大暴雨的诊断研究.大气科学, 2005, 29(3): 343-353. http://www.cnki.com.cn/Article/CJFDTOTAL-DQXK200503001.htm
[34]	Murata.Observation and Forecasts of Rainfall Distribution.Workshop Topic Report Sixth WMO International Workshop on Tropical Cyclones (IWTC-VI), 36-42, San Jose, Coata Rica, 2006.
[35]	梁旭东, 端义宏, 陈仲良.登陆台风对流和非对称结构.气象学报, 2002, 60(增刊): 26-35.
[36]	任振球.引潮力共振对热带气旋突变的触发作用.气象, 1998, 24(9): 12-15. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXX809.002.htm
[37]	Cheng Minghu. Observations and Forecasts of Rainfall Distribution. Workshop Topic Report Sixth WMO International Workshop on Tropical Cyclones (IWTC-VI), 36-42, San Jose, Costa Rica, 2006.
[38]	游然, 许健民, 张文建.用SSM/I微波遥感图像分析海上台风的螺旋云带.气象学报, 2002, 60(4): 477-485. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXB200204010.htm
[39]	万齐林, 薛纪善, 庄世宇.多普勒雷达风场信息变分同化的试验方法.气象学报, 2005, 63(2): 129-145. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXB200502000.htm
[40]	Tabito Hara. The Operational Non-hydrostatic Meso-scale for Quantitative Precipitation Forecast at JMA. The 2nd International Conference on QPF and Hydrology Proceedings, Boulder, CO, USA, 5—8 June 2006.
[41]	刘还珠, 赵声蓉, 陆志善, 等.国家气象中心气象要素的客观预报—MOS系统.应用气象学报, 2004, 15(2): 181-191. http://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFD2004&filename=YYQX200402005&v=MDYwNDlPUm5GeXJtVnJ6TFBEVGFkckc0SHRYTXJZOUZZWVI4ZVgxTHV4WVM3RGgxVDNxVHJXTTFGckNVUkwyZlo=