-
Abstract:
Typhoon-induced heavy rains are mostly studied from the viewpoint of upper-level westerly troughs. It is worthwhile to probe into a case where the rain is caused by tropical cyclone system, which is much heavier. During August 3 ~ 5, 1996, an unusually heavy rainstorm happened in the southwest of Hebei province. It was caused by 3 mesoscale convective cloud clusters on the periphery of a tropical cyclone other than the direct effects of a westerly trough. Generating in a weak baroclinic environment that is unstable with high energy, the cloud clusters were triggered off for development by unstable ageostrophic gravity waves in the low-level southeast jet stream on the periphery of the typhoon. There was a vertical circulation cell with horizontal scale close to 1000 km between the rainstorm area and westerly trough in northeast China. As shown in a computation of the Q vector of frontogenesis function, the circulation cell forms a mechanism of transforming energy between the area of interest and the westerly trough system farther away in northeast China. Study of water vapor chart indicates that high-latitude troughs in the northeast portion of the rain migrate to the southeast to enhance anti-cyclonic divergence in upper-level convection over the area of heavy rain and cause rain clusters, short-lived otherwise, to develop vigorously. It is acting as an amplifier in this case of unusually strong process of rain.
-
References
|
[1]
|
JIANG Shang-cheng, LIN Nan. Conceptual models of typhoon-generated heavy rain [A]. Collected Papers onMesoscale Meteorology [C]. Beijing: Meteorological Press, 1993. 223. |
|
[2]
|
LUO YA-li, DING Yi-hui, YI Qing-ju, et al. Heavy rain processes under the condition of typhoon landfall[A]. Study on Mesoscale Weather and Dynamics [M]. Beijing: Meteorological Press, 1996. 68. |
|
[3]
|
JIANG Shang-cheng, LIN Nan. Conceptual models of typhoon-generated heavy rain [A]. Collected Papers onMesoscale Meteorology [C]. Beijing: Meteorological Press, 1993. 220. |
|
[4]
|
ZHOU Ming-sheng. The regional continous super rain storms during midsummer in north China [J]. MeteorologicalMonthly, 1994, 20(7): 3-7. |
|
[5]
|
LUO Ya-li, DING Yi-hui, YI Qing-ju, et al. Heavy rain processes under the condition of typhoon landfall[A]. Study on Mesoscale Weather and Dynamics [M]. Beijing: Meteorological Press, 1996. 60-68. |
|
[6]
|
JIN Xiu-lan. The relationship between the development of cloud cluster of heavy rain and the low-levelwind field [J]. Meteorological Monthly, 1995, 21(1): 14-18. |
|
[7]
|
SUN Shu-qing. Unstable properties of low-level jet [A]. Heavy Rain in North China [M]. Beijing: MeteorologicalPress, 1989. 72-76. |
|
[8]
|
ZHAI Guo-qing, GAO Kun, SUN Shu-qing, et al. Diagnostic models for severe weather associated withlow-level jet stream [A]. Research on Mesoscale Weather and Dynamics [M]. Beijing: Meteorological Press,1996. 48-49. |
|
[9]
|
CHEN Qiu-shi. Relationship between unstable gravity inertia waves and generation / development ofsub-synoptic systems in middle latitudes [A]. Latest Progress in Synoptics [C]. Beijing: Meteorological Press,1986. 189-198. |
|
[10]
|
ZHENG Xin-jiang, et al (translators). Interpretation and application of water vapor imagery in weatheranalysis and forecasting [M]. Beijing: Meteorological Press, 1994. 202-203. |
|
[11]
|
Science and Education Department of China Meteorological Administration. Training materials for thepost of short-term forecaster at provincial weather services [Z]. Beijing: Meteorological Press, 1998. 175. |
|
[12]
|
DING Yi-hui. Advanced Synoptics [M]. Beijing: Meteorological Press, 1991. 174. |
-
-
-
粤公网安备 4401069904700002号
DownLoad: