利用 WRF 模式模拟海陆风对北苏门答腊岛东海岸对流活动日周期的影响

2019 IEEE Asia-Pacific Conference on Geoscience, Electronics and Remote Sensing Technology (AGERS) Pub Date : 2019-08-01 DOI:10.1109/AGERS48446.2019.9034301

J. A. I. Paski, I. J. A. Saragih, Donaldi S Permana, M. I. Hastuti, Aries Kristianto, E. Makmur

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引用次数: 4

摘要

陆海微风会产生对流云和降雨，从而引发水文气象灾害。及早识别对流活动的昼夜周期有助于减轻灾害的影响。北苏门答腊东部海岸直接毗邻马六甲海峡，适合进行海陆风模型模拟。海陆风环流会影响大气动力学。本研究旨在利用 WRF 模式模拟海陆风环流，并分析其对对流活动昼夜周期的影响。对流活动通过对流指数、水汽输送和降雨分布来识别。对 2016 年至 2017 年的 ECMWF 数据进行了处理，根据六次滤波法和暴雨定义确定了海陆风雨日。利用 Himawari-8 卫星数据计算对流指数，利用 FNL 数据中的比湿度和风力计算水汽输送。GSMaP 降水量数据用于描述苏门答腊岛的日降雨量分布。北苏门答腊东部沿海的主导海风是东北风。北苏门答腊岛北岸海风入侵的特点是温度下降、湿度上升和吹东风。从空间上看，北苏门答腊东部沿海地区从对流高峰到降雨形成约有 1-2 小时的时间差。北苏门答腊东部沿海地区的昼夜降雨高峰一般出现在午夜时分。

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Simulation of land-sea breeze effect on the diurnal cycle of convective activity in the Eastern Coast of North Sumatra using WRF model

Land-sea breeze can generate the growth of convective clouds and rainfall that cause hydrometeorological disasters. Early identification of the diurnal cycle of convective activities can help in mitigating the impact of disasters. The eastern coast of North Sumatra is directly adjacent to the Malacca Strait that is suitable for the land-sea breeze model simulation. The land-sea breeze circulation affects the atmospheric dynamics. This study aimed to simulate the land-sea breeze circulation using the WRF model and analyzed its effect on the diurnal cycle of convective activity. The convective activity was identified using convective index, moisture transport, and rainfall distribution. ECMWF data from 2016 to 2017 were processed to determine the land-sea breeze rainy days based on Six Filtering Method and heavy rainfall definition. The Himawari-8 satellite data was used to calculate the convective index, and the specific humidity and wind from FNL data was used to calculate the moisture transport. The GSMaP rainfall data was used to depict the diurnal rainfall distribution over Sumatra. The prevailing sea breeze on the eastern coast of North Sumatra was the northeasterly wind. Sea breeze intrusion on the north coast of North Sumatra is characterized by a decrease in temperature, rising humidity, and easterly wind. Spatially, there is a time lag of about 1–2 hours from the peak convection to the formation of rainfall in the eastern coast region of North Sumatra. Peak diurnal rainfall in the eastern coast of North Sumatra generally occurs during midnight.

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2019 IEEE Asia-Pacific Conference on Geoscience, Electronics and Remote Sensing Technology (AGERS)

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