Evaluation of NCMRWF unified model vertical cloud structure with CloudSat over the Indian summer monsoon region

SPIE Asia-Pacific Remote Sensing Pub Date : 2016-05-03 DOI:10.1117/12.2223622

A. Jayakumar, Ashu Mamgain, A. S. Jisesh, S. Mohandas, R. Rakhi, E. Rajagopal

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引用次数: 1

Abstract

Representation of rainfall distribution and monsoon circulation in the high resolution versions of NCMRWF Unified model (NCUM-REG) for the short-range forecasting of extreme rainfall event is vastly dependent on the key factors such as vertical cloud distribution, convection and convection/cloud relationship in the model. Hence it is highly relevant to evaluate the vertical structure of cloud and precipitation of the model over the monsoon environment. In this regard, we utilized the synergy of the capabilities of CloudSat data for long observational period, by conditioning it for the synoptic situation of the model simulation period. Simulations were run at 4-km grid length with the convective parameterization effectively switched off and on. Since the sample of CloudSat overpasses through the monsoon domain is small, the aforementioned methodology may qualitatively evaluate the vertical cloud structure for the model simulation period. It is envisaged that the present study will open up the possibility of further improvement in the high resolution version of NCUM in the tropics for the Indian summer monsoon associated rainfall events.

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NCMRWF统一模式与CloudSat对印度夏季风地区垂直云结构的评价

NCMRWF统一模式(NCUM-REG)短期预报的高分辨率降水分布和季风环流在很大程度上取决于模式中的垂直云分布、对流和对流/云关系等关键因素。因此，在季风环境下对模式云和降水的垂直结构进行评价具有重要意义。在这方面，我们利用了长观测期CloudSat数据能力的协同作用，将其调整为模式模拟期的天气情况。模拟在4 km网格长度上运行，对流参数化有效地关闭和打开。由于CloudSat穿过季风域的样本很少，因此上述方法可以定性地评估模式模拟期间的垂直云结构。预计本研究将为进一步改进热带地区NCUM高分辨率版本的印度夏季风相关降雨事件提供可能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SPIE Asia-Pacific Remote Sensing

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