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不同物理参数化方案对黄河源区降雨模拟的适用性研究 被引量:3

Applicability of WRF to Different Physical Parameterization Schemes in Simulating Rainfall Event in Source Area of Yellow River
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摘要 为分析不同物理参数化方案在模拟黄河源区降水时的适用性,采用中尺度WRF模式中常用的5种微物理方案和3种积云对流方案进行组合,模拟黄河源区的一次降水过程,利用直方图曼哈顿距离相似度对模拟结果和实况降水空间分布进行对比,并分析各方案组合模拟的降水中心(河南站)逐小时降水分布和24h累积降水量,以得到WRF模式模拟黄河源区降水的最优方案配置,提高模拟精度。结果表明,WRF模式的各方案基本可以再现降水强度、中心和范围,基于Morrison方案的组合对降水的还原能力较好;就降水中心的降水时间序列和24h累积降水量来看,基于Morrison方案的组合与实际降水的一致性较好;Morrison微物理方案和Grell 3积云对流方案组合的模拟结果与实际降水的空间分布相似度最高,表明该方案组合是WRF模式模拟黄河源区降水过程的最优模拟方案。研究成果对于提高黄河源区降水模拟的精度有重要意义。 Five kinds of microphysical schemes and three cumulus convection schemes commonly used in the mesoscale WRF model are combined to simulate a precipitation process in the source region of the Yellow River.The simulation results and the spatial distribution of the actual precipitation is compared by the distance similarity of the histogram.The hourly precipitation distribution and the 24 hcumulative precipitation of the precipitation center(Henan Station)simulated by each combination are also analyzed.The optimal scheme combination of the WRF model to simulate the precipitation in the source area of the Yellow River is obtained,and the simulation accuracy is improved.The results show that the WRF model can basically simulate the intensity,center and range of the precipitation.The combination of the Morrison scheme is better for the precipitation reduction;the precipitation time series of the precipitation center and the 24 hcumulative precipitation based on Morrison scheme combination has good consistency with actual precipitation;the simulation results of Morrison microphysical scheme and Grell 3 cumulus convection scheme combination have the highest similarity with the spatial distribution of actual precipitation,indicating that this is optimal scheme combination to simulate precipitation in the source region of the Yellow River.The research result has important significance to improve the simulation accuracy of precipitation in the source region of the Yellow River.
作者 吴海涛 解宏伟 赵运天 WU Hai-tao;XIE Hong-wei;ZHAO Yun-tian(School of Water Resources and Electric Power, Qinghai University, Xining 810016, China)
出处 《水电能源科学》 北大核心 2019年第7期9-13,共5页 Water Resources and Power
基金 国家重点研发计划(2017YFC0403603) 青海省科技计划项目(2017-ZJ-Y01) 国家自然科学基金项目(917472051007943)
关键词 WRF模式 微物理方案 积云对流方案 降水模拟 WRF Model microphysics scheme cumulus parameterization scheme precipitation simulation
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