| CAMS复杂云微物理方案与GRAPES模式耦合的数值试验 |
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| 引用本文: | 孙晶,楼小凤,胡志晋,沈学顺.CAMS复杂云微物理方案与GRAPES模式耦合的数值试验[J].应用气象学报,2008,19(3):315-325. |
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| 作者姓名: | 孙晶 楼小凤 胡志晋 沈学顺 |
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| 作者单位: | 1.中国气象科学研究院 中国气象局人工影响天气中心 中国气象局云雾物理重点开放实验室, 北京 100081 |
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| 基金项目: | 国家重点基础研究发展计划(973计划)
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中国气象科学研究院基本科研业务研究专项基金
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国家科技支撑项目
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科技部科研院所技术开发研究专项基金
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国家自然科学基金 |
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| 摘 要: | CAMS复杂云微物理方案是混合相双参数方案, 包括11个云物理变量和31个云物理过程, 能够同时预报水成物的比质量和数浓度。通过在GRAPES非静力中尺度模式中增加预报量并修改相关程序后, 实现了二者的耦合, 耦合后模式运行稳定。选取2005年8月15—17日我国华北地区一次暴雨过程, 利用耦合后的模式进行48 h模拟试验, 同时还选取了GRAPES模式中其他3个比较复杂的微物理方案进行模拟, 着重分析了降水和水成物分布的模拟结果。研究结果表明: CAMS方案能够模拟出与实测相接近的雨带分布特征, 并且对降水演变的模拟结果与其他方案比较一致, 对暴雨中心位置的模拟有待改进。CAMS方案模拟的水成物垂直分布与其他方案相比具有相似的总体特征, 各相态粒子的量级和分布合理, 不同方案的结果在量值上有所差别。个例分析结果显示出CAMS方案对降水和水成物的分布能够合理描述。今后应通过更多个例进行更为精细的模拟试验, 对新方案进行检验。
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| 关 键 词: | 微物理方案 GRAPES模式 水成物 |
| 收稿时间: | 2007-06-07 |
Numerical Experiment of the Coupling of CAMS Complex Microphysical Scheme and GRAPES Model |
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| Sun Jing,Lou Xiaofeng,Hu Zhijin,Shen Xueshun.Numerical Experiment of the Coupling of CAMS Complex Microphysical Scheme and GRAPES Model[J].Quarterly Journal of Applied Meteorology,2008,19(3):315-325. |
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| Authors: | Sun Jing Lou Xiaofeng Hu Zhijin Shen Xueshun |
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| Affiliation: | 1.Chinese Academy of Meteorological Sciences, Weather Modification Center of China Meteorological Administration, Key Laboratory for Cloud Physics and Weather Modification of China Meteorological Administration, Beijing 1000812.State Key Laboratory of Severe Weather, Chinese Academy of Meteorological Sciences, Beijing 100081 |
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| Abstract: | The schemes describing the moist physical process in the meso-scale model include the microphysical scheme and the cumulus parameterization scheme. The rainfall calculated in cumulus parameterization scheme is in subgrid scale and the rainfall calculated in the microphysical scheme calculates is in grid scale. With the improvement of the model resolution, the microphysical scheme has become more and more important in the meso-scale model. More detailed microphysical processes are described in the mixed-phase microphysical scheme, so that it can be used in many researches such as microphysical mechanism of precipitation, the interaction between cloud and radiation, lighting activity of cloud and so on. Therefore, it is very necessary and significant to study and improve the mixed-phase scheme of the meso-scale model. GRAPES (short form of Global/Regional Assimilation and PrEdiction System) is the new generation numerical model system in China. In order to improve the physical processes in GRAPES model, CAMS (Chinese Academy of Meteorological Sciences) complex microphysical scheme is coupled with the meso-scale regional GRAPES system.CAMS complex microphysical scheme is a double-moment mixed-phase scheme. There are 5 kinds of hydrometeors in this scheme which are cloud water, rain water, ice, snow and graupel. The scheme includes 11 prognostic cloud variables. They are the mass content (Qv, Qc, Qr, Qi, Qs, Qg) and number concentration (Nr, Ni, Ns, Ng) and the extent of cloud droplet spectrum. There are 31 microphysical processes in the scheme. Not only the mass content can be predicted but also number concentration of hydrometeors. In this study, new microphysical variables and a new microphysical option are added into GRAPES. A numerical experiment is conducted using the new model. The case simulated is a heavy rainfall happening in North China during August 15—17, 2005. The model is integrated for 48 h with 60 s time step. Three other microphysical schemes are selected to simulate the same case to make a comparison.They are Thompson scheme, WSM6 scheme and NCEPcloud5 scheme. The simulated results of distribution of rainfall and hydrometeors are analyzed. Results are shown as follows. The distribution of rain band simulated by CAMS is similar to the observation and the development of rain band simulated by CAMS is consistent with those of other three microphysical schemes.The center of heavy rainfall simulated needs to be improved.The comparison of the regional average hydrometeors made between CAMS scheme and other three microphysical schemes shows the similar general characteristics. CAMS scheme is able to simulate the hydrometeors in reasonable distribution and value. Due to the different microphysical process in different scheme, the values of hydrometeors of four microphysical schemes are different. Results reveal the good capacity of CAMS scheme in describing cloud and precipitation processes in GRAPES model. The new scheme should be tested through numerical experiments and fine model design in the future. |
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| Keywords: | microphysical scheme GRAPES model hydrometeor |
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