三维强风暴动力-电耦合数值模拟研究Ⅱ:电结构形成机制
NUMERICAL STUDY OF THUNDERSTORM ELECTRIFICATION WITH A THREE-DIMENSIONAL DYNAMICS AND ELECTRIFICATION COUPLED MODEL II:MECHANISM OF ELECTRICAL STRUCTURE
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摘要: 文中利用文献1所建立的三维强风暴动力-电耦合模式模拟研究了CCOPE(Cooperative Convective Precipitation Experiment)计划1981年7月19日的一次强雷暴过程,分析了该雷暴云中电结构的时空演变特征和形成机制,讨论了起电、降水和对流三者间的相互关系。结果表明,感应和非感应起电机制是雷暴云电结构形成的主要机制,冰相物的出现大大增强了雷暴中的起电过程。雷暴云中最大电场出现的时间与最大固态降水强度的出现基本同时,但比最大液态降水强度和最大上升速度出现的时间略有滞后,云中最大上升速度与最大液态降水强度基本同时出现。云中最大电场出现的时段正好是最大上升速度达到最大值后回落的阶段。雷暴云中起电活动的强弱还受云中微物理过程的发展和冰相物出现时间的影响,对流运动与起电过程的关系主要体现在对流运动影响着云中的凝结和冻结过程,从而与冰相物出现的时间有关。而仅仅依靠对流运动对正负离子的输送机制不可能产生云中接近放电的临界电场。Abstract: In this paper,a new three-dimensional dynamics and electrification coupled model from reference 1 has been used for simulating a thunderstorm process by observations of July 19,1981 CCOPE(Cooperative Convective Precipitation Experiment).Itanaly zes the spatial and temporal development of electric structure within the thunderstorm and development mechanism,and discusses the interactions between electrification,convection and rainfall.Results indicate that inductive and non-inductive charging mechanism play a main role in evolution of electrical structure within thunderstorms,and the electric development depends highly on icephase microphysical processes.The appearing time of maximal electric field is the same as appearing time of maximal solid rainfall density,but later than liquid and maximal ascending velocity.And the appearing time of maximalelectric field is also the same as starting falling time of maximal ascending velocity.The interactions between electrif ication and convection mainly are that the convection can affect condensation and freezing processes in the clouds.