Sensitivity of WRF precipitation simulation to the microphysics schemes: Results from the SoWMEX IOP-8 Case

机译：WRF降水模拟对微物质方案的敏感性：Sowmex IOP-8案例的结果

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The heavy rainfall event on 14-15 June 2008,also categorized as the IOP-8 case,during the SoWMEX/TiMREX field experiment is investigated in this study.The precipitation simulation results using the WRF (Weather Research and Forecasting)model nested down to 1.67 km are compared with the observations from NCAR S-POL and NCU TEAM-R radars during the Mei-Yu frontal system near Taiwan area.Four dimensional data assimilation (FDDA; nudging relaxation) is used on the coarse grids (with grid sizes of 5,15,and 45 km) to capture the large and synoptic-scale forcings.Four microphysics schemes (including the WSM6,WDM6,Thompson,and Morrison) are chosen to compare the simulated microphysics structures.

机译：2008年6月14日至14日的大雨事件，也是IOP-8案例，在这项研究中调查了Sowmex / Timrex现场实验。使用WRF（天气研究和预测）模型的降水模拟结果嵌套至比较1.67公里，与NCAR S-POL和NCU Team-R雷达的观察相比，在台湾地区附近的Mei-Yu Frontal System中。尺寸数据同化（FDDA;露出弛豫）在粗网格上使用（具有网格尺寸5,15和45公里）捕获大型和概要规模的强制性。选择微神科方案（包括WSM6，WDM6，汤普森和莫里森）以比较模拟的微物质结构。

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《Conference on meso-scale convective systems and high-impact weather in East Asia》|2013年||共1页
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Ming-Jen Yang; Chun-Yu Chou;
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中图分类大气科学（气象学）;
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Sensitivity of WRF precipitation simulation to the microphysics schemes: Results from the SoWMEX IOP-8 Case

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