Shallow Convection Dataset Simulated by Three Different Large Eddy Models

IF 6.5 2区地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES

Advances in Atmospheric Sciences Pub Date : 2024-02-09 DOI:10.1007/s00376-023-3106-6

Yaxin Zhao, Xiaocong Wang, Yimin Liu, Guoxiong Wu, Yanjie Liu

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引用次数: 0

Abstract

Shallow convection plays an important role in transporting heat and moisture from the near-surface to higher altitudes, yet its parameterization in numerical models remains a great challenge, partly due to the lack of high-resolution observations. This study describes a large eddy simulation (LES) dataset for four shallow convection cases that differ primarily in inversion strength, which can be used as a surrogate for real data. To reduce the uncertainty in LES modeling, three different large eddy models were used, including SAM (System for Atmospheric Modeling), WRF (Weather Research and Forecasting model), and UCLA-LES.

Results show that the different models generally exhibit similar behavior for each shallow convection case, despite some differences in the details of the convective structure. In addition to grid-averaged fields, conditionally sampled variables, such as in-cloud moisture and vertical velocity, are also provided, which are indispensable for calculation of the entrainment/detrainment rate. Considering the essentiality of the entraining/detraining process in the parameterization of cumulus convection, the dataset presented in this study is potentially useful for validation and improvement of the parameterization of shallow convection.

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三种不同大涡模型模拟的浅层对流数据集

浅层对流在将热量和湿气从近地表输送到高空方面发挥着重要作用，但在数值模式中对其进行参数化仍然是一项巨大挑战，部分原因是缺乏高分辨率观测数据。本研究描述了四个浅层对流案例的大涡度模拟（LES）数据集，这些案例主要在反演强度方面存在差异，可用作真实数据的替代。为了减少 LES 建模的不确定性，使用了三种不同的大涡度模型，包括 SAM（大气建模系统）、WRF（天气研究和预报模型）和 UCLA-LES。除了网格平均场外，还提供了云内湿度和垂直速度等条件采样变量，这些变量对于计算夹带/脱附率是不可或缺的。考虑到积云对流参数化过程中夹带/脱附率的重要性，本研究提供的数据集可能有助于验证和改进浅层对流的参数化。

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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来源期刊

Advances in Atmospheric Sciences 地学-气象与大气科学

CiteScore

9.30

自引率

5.20%

发文量

154

审稿时长

6 months

期刊介绍： Advances in Atmospheric Sciences, launched in 1984, aims to rapidly publish original scientific papers on the dynamics, physics and chemistry of the atmosphere and ocean. It covers the latest achievements and developments in the atmospheric sciences, including marine meteorology and meteorology-associated geophysics, as well as the theoretical and practical aspects of these disciplines. Papers on weather systems, numerical weather prediction, climate dynamics and variability, satellite meteorology, remote sensing, air chemistry and the boundary layer, clouds and weather modification, can be found in the journal. Papers describing the application of new mathematics or new instruments are also collected here.