气溶胶对北京地区云和降水影响的模拟研究  被引量：3

作　　者：师宇[1,2,3] 楼小凤[1,2] 王广河[1,2] 

机构地区：[1]中国气象科学研究院灾害天气国家重点实验室,北京100081 [2]中国气象科学研究院中国气象局云雾物理实验室,北京100081 [3]中国科学院大学,北京100049

出　　处：《地理研究》2016年第10期1912-1924,共13页Geographical Research

基　　金：国家自然科学基金项目(41275148)

摘　　要：利用中尺度气象模式WRF中一个含有云凝结核CCN活化过程的双参数云微物理方案(NSSL 2-mom+ccn),研究不同气溶胶导致的初始CCN浓度对云物理和降水过程的影响。完整地模拟了北京市2015年7月16-17日一次典型的从小雨到暴雨连续降水过程,包括降水主要集中的时间段,雨带的西北—东南走向,降水初期普降小雨、后期转变为中到大雨甚至局部地区出现暴雨,24小时最大累积降水量可以达到65 mm,模拟结果与实测符合较好。模拟得到的区域平均累积降水量随着气溶胶的增加而减少,与其他研究根据地面降水与能见度资料统计分析的结论相一致。比较详细地给出了气溶胶对云的微物理结构、水成物时空分布以及微物理过程的转化率的影响。In this paper, the influence of initial CCN concentration on the physical and precipitation processes of cloud was numerically studied by using mesoscale model WRF. A two parameter cloud micro physics scheme（2- mom ＋ ccn NSSL） containing CCN activation process of cloud condensation nuclei is utilized to investigate the impacts of different aerosol backgrounds on the cloud microphysical processes and precipitation. A typical precipitation event near Beijing（July 16- 17, 2015）, which was formatted as a drizzle case and then developed into heavy precipitation, was simulated in order to examine the sensitivity of aerosol pollution. Controlled experiment captured the characters of this rainfall case very well. Rainfall rate peak in the time series and its varying tendency and moving direction of precipitation strength center were modeled with reliable accuracy. The modeled average precipitation rate decreased with rising aerosol background concentration, which is consistent with studies of some other authors. Structure of cloud system, temple and spatial variation of hydrometeor categories and strength of their sink and source terms are compared and analyzed. Our numerical simulation can completely simulate the whole process of the precipitation, including main precipitation- concentrated period of time, the rain belt in the northwest- southeast direction, precipitation at the beginning of the heavy rain, the late shift to rain or even local rainstorm. Simulation results show that the maximum cumulative precipitation of 24 hours can reach 65 mm, which is in good agreement with the measured data, and the effect of aerosol on precipitation efficiency is different in different precipitation stages. We found that when the initial CCN concentration is higher, the maximum precipitation efficiency occurs in the light rain stage, and the precipitation efficiency is reduced in the rainstorm period. There was no significant change in the precipitation range of the three initial CCN concentrations, but the location of

关 键 词：气溶胶 云 降水 数值模拟 北京 

分 类 号：X513[环境科学与工程—环境工程] P426[天文地球—大气科学及气象学]