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利用临沂新一代天气雷达(CINRAD/SC)观测资料和 MM5 模式产品及 Micaps 常规资料,具体分析了2005年9月20日和2006年7月3日发生在临沂市的冷式和暖式切变线暴雨到大暴雨过程的异同.分析表明两种切变线暴雨雷达回波都表现为和切变线走向一致的积层混合云降水云系,有较大范围,长度远大于宽度,对应于切变线成带絮状回波,最大回波强度相同,移速慢等特点.由于冷、暖式切变线结构上存在差异,冷式切变线暴雨低层有明显的东北气流冷垫,物理量场由低到高向北倾斜,加强了其动力上升运动;水汽输送依赖于对流层中层的西南急流,雨强的增大和高空急流的向下发展有关系.暖式切变线物理量场呈垂直分布,高低空配置利于上升运动维持,暴雨的水汽输送不仅依赖于对流层中层的西南急流,还依赖于低空西南急流,雨强的增大和中高空急流风速辐合中心的建立有关.结构的不同表现在雷达回波上不同特点为冷式切变线强回波单体或短带位于切变线南侧,而暖式切变线强回波单体或短带基本位于切变线雨带的中间. 相似文献
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2009年6月28-30日湖北区域性大暴雨诊断分析 总被引:1,自引:0,他引:1
利用NCEP资料、LAPS产品、地面自动站资料及卫星资料和多普勒雷达拼图资料,对2009年6月28—30日湖北区域性大暴雨过程的环流背景与动力、热力、水汽条件等进行了诊断分析。结果表明:此次过程是在贝加尔湖低槽东移、副热带高压加强西伸北抬、西南急流发展、低层切变线南压和低涡东移的条件下发生的;低空急流的发展使大气强烈转暖,低层辐合与正涡度、高层辐散与负涡度及其相互配合,为暴雨发生发展提供了有利的热力和动力条件;冷空气南下在高温高湿的长江流域形成锋区以及西南急流加强,不仅向暴雨区提供了充沛水汽,还与切变加强、低涡东移共同造成能量锋区锋生,沿低层θse能量锋区及切变线有多个对流云团和强回波生成引发区域性强降水。 相似文献
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山东“7.18”致灾暴雨成因分析 总被引:13,自引:3,他引:10
利用实况观测资料、中尺度自动站资料和NCEP再分析资料,对2007年7月18日山东省大暴雨过程进行了诊断分析,同时还分析了暴雨致灾原因。结果表明,本次大暴雨是由高空冷涡南部的低槽、底层准东西向切变线、副热带高压西北边缘的暖湿气流以及来自东北南下冷空气共同影响所致。低层前期明显的持续升温为暴雨的产生创造了极好的热力条件,强盛的低空西南暖湿气流输送为此次暴雨提供了充足的水汽,同时山东上空低层高温高湿、能量增大,形成上干冷下暖湿的对流性不稳定层结。沿850 hPa切变线北侧东北气流迂回南下的冷空气与低空西南急流携带的暖湿空气在山东交汇,冷暖空气在对流层低层相互作用,具有明显的暖锋锋生特征,弱冷空气的低层侵入对暖湿空气具有抬升作用,促使对流发展和不稳定能量释放产生暴雨。地面存在中尺度辐合中心或辐合线的生成和发展,是这次大暴雨产生的启动机制,大暴雨的分布与地面辐合线的走向基本一致。降水历时短强度大,特殊的地势地貌是本次暴雨致灾的重要原因。 相似文献
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利用常规观测资料、NCEP再分析资料、卫星以及雷达资料对2015年8月16—18日影响川渝地区的一次持续性大暴雨过程进行了分析。结果表明:在亚洲中高纬和低纬相对稳定的环流背景下,两次高原涡东移、两次冷空气南下侵入四川盆地共同促进了西南低涡生成发展,造成此次大暴雨过程。西南低涡"初生形成"阶段,地面热低压东北侧有冷锋侵入,中心偏北形成暖锋,低涡近于正压;"稳定持续发展"阶段,冷锋南段移至地面热低压南侧,北段与暖锋结合形成准静止锋,低涡斜压性明显且呈近圆形,持续性暴雨主要出现在西南低涡的暖切变线附近和冷槽东侧;"东移变形减弱"阶段,冷空气第二次侵入,冷锋持续增强,西南低涡东移变形减弱。低层辐合、高层辐散、充沛的水汽输送以及不稳定能量的累积为西南低涡的加深、发展和强降水的维持提供了重要条件。西南低涡暖切变线和南侧冷槽附近发展起来的对流云团是暴雨产生的直接原因,强降水主要发生在云团上风方TBB梯度相对较大的区域。此次强降水过程的局地环流有低空急流和低空辐合线或切变线配合,雷达体积速度处理(velocity volume processing,VVP)法反演的风矢图可更直观地判断风向风速、天气系统所处的发展阶段以及判识辐合线或切变线,低空辐合线或切变线的演变以及低空急流的强度和移向对强降水天气产生的动力条件、维持时间和回波外推预报具有重要的指导意义。 相似文献
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2009年7月8-9日发生在泰安的暴雨天气过程主要是在副高西进北抬、副高边缘西南暖湿气流与高空低槽东移南压相结合的大尺度环流下,由黄河北部的低层中尺度切变线和鲁中地区的小低涡以及低空西南急流共同作用造成的.低空西南急流为大暴雨的产生输送了充足的水汽,低涡加大了辐合上升运动和水汽辐合.850 hPa低空大气散度辐合中心正处于泰安,垂直速度强上升区也在鲁中地区,为暴雨产生提供了足够的动力条件,低层850 hPa假相当位温θse>75 ℃的高能舌为这次暴雨提供了不稳定能量. 相似文献
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2007年7月18—19日山东省大暴雨天气分析 总被引:11,自引:1,他引:10
应用常规观测资料、中尺度站资料、卫星云图、雷达回波和T213数值预报产品,对2007年7月18-19日山东省大范围对流性暴雨天气的成因进行了分析.分析了产生暴雨的天气系统特征,大气垂直稳定度和对流有效位能,产生暴雨的水汽条件和动力触发机制,给出了产生暴雨的对流云团演变特征.研究结果表明,对流性大暴雨是由东北冷性低涡、前倾槽、副热带高压边缘西南暖湿气流和冷空气的共同影响产生的.低层强盛的偏南气流建立起水汽通道,把水汽源源不断地向暴雨区输送.前倾槽结构和低层增温增湿使得大气强烈的对流不稳定和对称不稳定.低层较强的东北气流与强盛的西南暖湿气流侧向汇合,垂直涡度增大,辐合上升运动增强,对流不稳定能量释放,产生中尺度对流云团.地面冷锋前生成中尺度低压,加强了辐合上升运动.高层辐散与低层辐合相配合,有利于上升运动发展和维持.卫星云图中显示两个对流云团合并发展形成中尺度对流复合体(MCC).雷达回波中表现为两个东西向的带状强降水回波相衔接,缓慢南移;暴雨区上空东北气流、西北气流和西南气流相汇合;低层东北气流逐渐增大.冷空气从低层侵入. 相似文献
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本文利用常规气象观测资料、EC、NCEP2.5°×2.5°的6h分析资料,着重从高层环流特征、水汽条件、热力层结条件、动力触发机制等方面对“7.20”吉林中部地区大暴雨天气过程进行综合分析,结果表明:“7.20”吉林省中部大暴雨的发生与低层冷式切变线移动和发展密切相关,且伴随着中尺度雨团的强烈发展,大暴雨主要产生在中尺度低空急流的左前方、低空冷式切变线右侧以及冷涡的东北象限;副高西侧的西南急流建立起从渤海、黄海到东北地区中部的水汽通道,为这次大暴雨的发生发展提供了暖湿空气和能量;低空急流扰动、中低层切变线长时间停滞、对流层高层强辐散形成的抽吸作用对此次大暴雨过程有明显的触发和增幅作用。 相似文献
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利用Micaps常规观测资料、自动站加密观测资料、NCEP再分析资料和GOES卫星资料,从环流背景、水汽条件、动力条件、不稳定机制等方面,重点对2008年7月22日襄樊罕见特大暴雨的中尺度观测特征与物理机制进行分析.结果表明:此次特大暴雨是在副热带高压、高空槽、西南低涡、切变线和地面倒槽的共同作用下发生的:切变线上对流云团在暴雨区合并、加强是造成襄樊罕见特大暴雨天气的直接原因,强降水发生在TBB低值中心;沿低空急流建立的从南海到华中地区的水汽通道,为暴雨发生发展直接输送暖湿空气;低层强烈的水汽输送和水汽辐合使暴雨区大气湿层迅速增厚,为暴雨发生发展提供了有利的水汽条件;低层辐合、高层辐散和整层正涡度的配置以及强的垂直上升运动,为暴雨发生提供了动力条件;能量锋锋生、湿度锋锋生对中尺度对流系统发生发展具有触发作用. 相似文献
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2012年初夏西北干旱区罕见区域性大暴雨天气过程分析 总被引:1,自引:0,他引:1
利用常规观测资料、美国环境预报中心逐6 h FNL(1°×1°)再分析格点资料、NCEP/NCAR(2.5°×2.5°)逐6 h再分析资料、FY-2E气象卫星资料和雷达回波资料,用天气学分析和物理量场诊断分析方法,探究了2012年6月4~5日发生在新疆库尔勒至甘肃玉门一带干旱地区60 a一遇的大暴雨天气过程的水汽来源以及触发机制。结果表明:中层强盛西南低空急流和低层偏东低空急流为暴雨区源源不断地输送水汽并带来不稳定能量;前倾槽结构和低层增温增湿,形成大气层结强烈对流不稳定;低层切变线(850 h Pa)和其上空辐合线(700 h Pa)叠加,导致不稳定能量释放,诱发大暴雨天气过程发生;低空辐合高空辐散,形成整层上升运动,为大暴雨的发展和维持提供了动力条件。 相似文献
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2000年7月西南涡暴雨过程的分析和数值模拟 总被引:38,自引:31,他引:7
对2000年7月1~8日西南涡暴雨过程进行了大尺度分析,并利用中尺度暴雨模式MRM1对这次过程进行了数值模拟,结果表明,这次西南涡暴雨过程分为两个阶段,分别对应着两次冷空气南下。暖切变线的南北摆动是发生大暴雨的一个重要原因,而西南急流核的向北传播导致雨区向北传播。模式成功地模拟出了中-α尺度的低涡、切变线,沿暖切变线的强烈倾斜上升气流、中尺度正涡度以及水汽通量散度辐合柱状结构,这些对暴雨的发生提供了动力和水汽条件;而沿低空急流轴的狭长暖湿舌,其北部的干冷区构成的南北向能量锋区,以及较强的中低空不稳定层结是这次暴雨持续发生的重要条件。 相似文献
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Mechanisms governing the evolution of a long-lived northwest vortex that caused a series of disasters in Northwest China 
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下载免费PDF全文 Shuang-Long Jin Bo Wang Shuang-Lei Feng Xiao-Lin Liu Zong-Peng Song Ju Hu Zheng Li 《大气和海洋科学快报》2022,15(2):19-25
西北涡是我国西北地区一类发生频率较高的中尺度涡旋,其所引发灾害的强度与西南低涡,高原涡相当,但相关研究却远远少于前两种涡旋.为了深化对西北涡的认识,本文利用水汽与环流收支对一次长生命史西北涡(其在西北地区引发了一系列暴雨过程,导致了严重的输电线路故障与城市内涝)进行了研究,发现,东海与渤海是此西北涡引发暴雨的主要水汽来... 相似文献
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Different response of North Pacific storm tracks in the upper and lower troposphere to jet strength 下载免费PDF全文
下载免费PDF全文 《大气和海洋科学快报》2023,16(1):100272
The midwinter suppression of North Pacific storm tracks (NPSTs) reflects that the linear relationship between the NPST and baroclinicity breaks in winter. Based on the reanalysis data during the cold seasons of 1979–2019 and a tracking algorithm, this study analyzes the eddy growth process and shows that an enhanced upper-tropospheric jet favors the generation of upper-level eddies on the northeast side of the Pacific jet, but increasingly suppresses the generation of those in the Northwest Pacific. The upper-level eddies generated upstream of the jet core are unable to grow sufficiently throughout the whole cold season, and only those generated downstream of the jet core can grow normally and constitute the main body of the upper-level NPST. By contrast, the main lower-level eddy genesis area and growth area coincide with the baroclinic zone, with the genesis number and local growth rate increasing with the baroclinicity.摘要北太平洋风暴轴的深冬抑制表明风暴轴强度与斜压性之间的线性关系在冬季破裂. 本研究基于1979–2019年冷季的再分析数据和拉格朗日跟踪算法, 对比分析了高低层扰动的具体生长过程. 结果表明太平洋急流的增强有利于高层扰动在急流核东北侧产生, 但却抑制其在西北太平洋的生成. 在急流核上游产生的高层扰动在整个冷季都无法充分发展, 只有在急流核下游产生的高层扰动才能正常生长且它们是构成高层太平洋风暴轴的主体. 相比之下, 低层扰动的生成区和生长区都与斜压区重合, 并且它们的生成数量和局部增长率随着斜压性的增强而增强. 相似文献
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Factors responsible for the increasing trend of mei-yu season rainfall during 1979–2020 over the western and eastern mei-yu domain 下载免费PDF全文
下载免费PDF全文 《大气和海洋科学快报》2023,16(3):100323
The mei-yu season (June–July) rainfall over the mei-yu monitoring domain (MMD) in the Yangtze–Huaihe Basin has shown an increasing trend in recent decades. This study examines the dominant factors responsible for this increasing trend for the period 1979–2020 based on station-observed rainfall and ERA5 reanalysis datasets from the perspective of changes in atmospheric circulation. Although significantly increasing trends exist in the mei-yu season rainfall over the entire MMD, the magnitude of the trends is slightly larger over the eastern MMD (EMMD) than over the western MMD (WMMD). Quantitative diagnoses demonstrate that the relative contributions of anomalous evaporation and moisture advection to the increasing rainfall trend are different between the EMMD and WMMD. The increasing rainfall trend over the WMMD (EMMD) is attributable to increased evaporation (enhanced vertical moisture advection), which is dependent on an anomalous cyclonic circulation in the middle-lower troposphere over the MMD. Such an anomalous cyclone on the northwestern side of the climatological western North Pacific subtropical high facilitates an increase in moisture divergence above 600 hPa over the EMMD, leading to enhanced vertical moisture advection in conjunction with strengthened moisture convergence at 850 hPa. By contrast, the anomalous cyclone favors increasing local evaporation over the WMMD.摘要近几十年来, 江淮流域梅雨监测区 (MMD) 的梅雨期 (6–7月) 降水呈增加趋势. 本文基于1979–2020年台站观测降水资料和ERA5再分析数据, 从大气环流变异的角度揭示了这种长期增加趋势的主要影响因素. 发现在MMD范围内, 梅雨期降水趋势的增幅东部大于西部. 水汽收支定量诊断表明, 异常的蒸发和水汽平流对MMD西部和东部降水增加趋势的相对贡献是不同的. MMD西部 (东部) 的降水趋势主要归咎于增强的局地蒸发 (增强的垂直水汽平流) , 后者又取决于MMD对流层中, 低层的异常气旋环流. 这种位于气候平均的西太平洋副热带高压西北侧的异常气旋有助于MMD东部600 hPa以上的水汽辐散增加, 伴随加强的850 hPa水汽辐合, 从而导致垂直水汽平流的增强. 相反, 该异常气旋则有利于增强MMD西部的局地蒸发. 相似文献
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《大气和海洋科学快报》2022,15(6):100259
Intense and extensive dust, caused by a strong Mongolian cyclone, hit Mongolia and northern China on 14–15 March 2021. In this study, the development process of this cyclone is analysed from the perspective of high-frequency eddy energetics. During the low-frequency circulation field of early March of 2021, an amplified polar vortex intruding towards central Asia and a ridge straddling eastern and northeastern Asia worked in concert to comprise a strong baroclinic zone from central Asia to Lake Baikal. Under these favourable conditions, on 13 March, a migratory trough triggered the Mongolian cyclone by crossing over the Sayan Mountains. The downwards transfer of kinetic energy from the eddy at 850 hPa played a key role in the intensification and mature stage of the cyclone. This mechanism was primarily completed by the cold air sinking behind the cold front. The frontal cyclone wave mechanism became crucial once the cyclone started to rapidly develop. The authors emphasize that the anomalously large growth of high-frequency available potential energy, which characterized this super strong cyclone, was obtained by extracting energy first from the time-mean available potential energy and then from the low-frequency available potential energy. The interannual temperature anomaly pattern of “north cold south warm” facilitated the additional time-mean available potential energy, and the temperature anomaly pattern of “northwest cold southeast warm” conditioned the extra low-frequency available potential energy. The analysis results suggest that the interaction between high- and low-frequency waves was also important in the development of the intense cyclone.摘要2021年3月14-15日, 强蒙古气旋引起的大范围强沙尘天气袭击了蒙古国和中国北方地区. 本文从高频涡动能量学的角度分析了这一超强气旋的发展过程. 2021年3月初, 加强的极涡向中亚伸入, 并与横跨东亚和东北亚的一个大型脊协同作用, 由此形成了从中亚到贝加尔湖地区的强大斜压带. 在这一有利的低频环流条件下, 3月13日一个移动性小槽越过萨彦岭后触发了蒙古气旋. 850 hPa涡旋动能的下传在气旋的加强和成熟阶段起到了关键作用. 而这一机制主要由冷锋后侧的冷空气下沉过程完成. 一旦气旋开始快速发展, 锋面气旋波机制就变得至关重要.我们强调, 高频涡动有效位能是首先从时间平均有效势能中提取能量, 然后从低频有效位能中汲取能量而剧烈增长的, 这正是该超强气旋的鲜明特征. “北冷南暖”的近地面温度气候异常型为时间平均有效位能的增多和向高频涡动有效位能的转换提供了条件, 而“西北冷东南暖”的温度异常型则有利于低频有效位能的增加和向高频涡动有效位能的转换. 分析结果表明, 高低频波之间的相互作用对蒙古气旋的增强也很重要. 相似文献
16.
Possible contribution of the PDO to the eastward retreat of the western pacific subtropical high: PDO对西太平洋副热带高压年代际东退的可能贡献 下载免费PDF全文
下载免费PDF全文 《大气和海洋科学快报》2021,14(1):100005
Previous studies have demonstrated that the western Pacific subtropical high (WPSH) has experienced an eastward retreat since the late 1970s. In this study, the authors propose that this eastward retreat of the WPSH can be partly attributed to atmospheric responses to the positive phase of the Pacific decadal oscillation (PDO), based on idealized SST forcing experiments using the Community Atmosphere Model, version 4. Associated with the positive phase of the PDO, convective heating from the Indian Peninsula to the western Pacific and over the eastern tropical Pacific has increased, which has subsequently forced a Gill-type response to modulate the WPSH. The resulting cyclonic gyre over the Asian continent and the western Pacific in the lower troposphere is favorable for the eastward retreat of the WPSH. Additionally, the resulting anticyclonic gyre in the upper troposphere is favorable for the strengthening and southward expansion of the East Asian westerly jet, which can modulate the jet-related secondary meridional–vertical circulation over the western Pacific and promote the eastward retreat of the WPSH.摘要以往的研究已证实, 西太平洋副热带高压 (副高) 在1970s后期减弱东退.基于大气模式 (CAM4) 的理想型海温强迫试验, 结果表明:副高的东退可能是大气对于正位相太平洋年代际振荡 (PDO) 的相应.伴随着PDO转变为正位相, 西太平洋至印度半岛以及热带东太平洋的对流加热增强, 大气表现为Gill型响应, 在亚洲大陆至西太平洋上空低层产生气旋性异常, 有利于副高东退.同时, 高层产生反气旋异常, 使得东亚西风急流加强和向南扩展, 进而调节西太平洋上空的次级环流, 进一步有利于副高东退. 相似文献
17.
2019 was one of the hottest years in recent decades, with widespread heatwaves over many parts of the world, including Africa. However, as a developing and vulnerable region, the understanding of recent heatwave events in Africa is limited. Here, the authors incorporated different climate datasets, satellite observations, and population estimates to investigate patterns and hotspots of major heatwave events over Africa in 2019. Overall, 2019 was one of the years that experienced the strongest heatwaves in terms of intensity and duration since 1981 in Africa. Heatwave hotspots were clearly identified across western-coastal, northeastern, southern, and equatorial Africa, where major cities and human populations are located. The proportion of urban agglomerations (population) exposed to extreme (99th percentile) heatwaves in the Northern Hemisphere and Southern Hemisphere rose from 4% (5 million people) and 15% (17 million people), respectively, in the baseline period of 1981–2010 to 36% (43 million people) and 57% (53 million people), respectively, in 2019. Heatwave patterns and hotspots in 2019 were related to anomalous seasonal change in atmospheric circulation and above-normal sea surface temperature. Without adaptation to minimize susceptibility to the effects of heatwave events, the risks they pose in populated areas may increase rapidly in Africa.摘要2019 年是近几十年来最热的年份之一, 包括非洲在内的全球许多地区都受到大范围的热浪侵袭. 然而, 非洲作为脆弱的发展中地区, 我们对其近年热浪事件的了解非常有限. 本研究中, 我们结合了不同的气候数据集, 卫星观测资料和人口数据, 研究了 2019 年非洲地区主要热浪事件发生的时空特征和热点分布区. 总体而言, 2019 年是非洲地区自 1981 年以来热浪强度最强, 持续时间最久的年份之一. 在主要城市和人口所在的非洲西海岸, 东北部, 南部和赤道地区是热浪发生的热点区. 位于赤道以北的非洲地区, 暴露于极端 (第 99 个百分位) 热浪的城市人口比例从 1981–2010 年基准期的 4% (500 万人) 上升至2019 年的 36% (4300 万人). 位于赤道以南地区, 暴露于极端热浪的城市人口则从基准期的15% (1700 万人) 上升至57% (5300 万人). 2019 年的热浪时空特征和热点分布与大气环流的季节变化异常和海温的暖异常有关. 如果不及时采取适应措施以尽量减少人口对热浪事件影响的敏感性, 热浪对非洲人口稠密地区构成的风险可能会迅速增加. 相似文献
18.
《大气和海洋科学快报》2021,14(2):100017
A snow burst event characterized by brief heavy snowfall affected Northeast China and caused serious social impact on 26 January 2017, with the snowband generally aligned with a northeast–southwest-oriented cold front. ECMWF reanalysis data were used to diagnose the possible trigger mechanism. Results showed there were two stages: (a) an initial stage far away from the Changbai Mountains, and (b) an enhancement stage under the influence of high terrain. During the initial stage, the coupling of low-level frontogenesis and a favorable convergence pattern caused strong upward motion, contributing to the release of instability. When the snowband approached the high terrain during the enhancement stage, the various instabilities were triggered by the low-level frontogenesis, terrain circulation, and strong wind shear associated with the low-level jet. Further, a modified Q-vector divergence including generalized potential temperature was calculated to diagnose the vertical motion. It showed that the frontogenesis terms contributed greatly to the negative Q-vector divergence along the moist isentropes, while the pseudo-vorticity terms played a role in the regions with strong wind shear associated with the low-level jet in the warm section, suggesting both were important in stimulating the ascending motion. The regions with negative Q-vector divergence had a close relationship with the vertical structure of convection, indicating the potential to track the development of the snowband in the next few hours.摘要2017年1月26日, 中国东北地区发生了一次短时强降雪过程.本文利用ECMWF再分析数据诊断该过程的可能触发机制.分析表明, 该过程可分两个阶段:初生阶段降雪远离高地形, 低层锋生和有利的辐散场配置激发上升运动释放不稳定;增强阶段雪带接近长白山, 低层锋生,地形环流以及与低空急流有关的风切变共同释放锋前不稳定.本文进一步计算了包含广义位温的修正Q矢量方程.结果表明, 锋生项对沿湿等熵线的负Q矢量散度贡献较大, 而拟涡度项在暖区强风切变区域中比较显著, 两项在激发上升运动中同等重要. 相似文献
19.
Budget analysis of mesoscale available potential energy in a heavy rainfall event over the eastern Tibetan Plateau: 青藏高原东部暴雨的中尺度有效位能收支分析 下载免费PDF全文
下载免费PDF全文 《大气和海洋科学快报》2021,14(2):100030
Using model simulated data, the distribution characteristics, genesis, and impacts on precipitation of available potential energy (APE) are analyzed for a heavy rainfall event that took place over the eastern Tibetan Plateau during 10–11 July 2018. Results show that APE was mainly distributed below 4 km and within 8–14 km. The APE distribution in the upper level had a better correspondence with precipitation. Northwestern cold advection and evaporation of falling raindrops were primary factors leading to positive anomalies of APE in the lower level, while positive anomalies of APE in the upper level were caused by a combination of thermal disturbances driven by latent heat and potential temperature perturbations resulting from the orography of the Tibetan Plateau. Budget analysis of APE indicated that APE fluxes and conversion between APE and kinetic energy (KE) were the main source and sink terms. Meridional fluxes of APE and conversion of KE to APE fed the dissipation of APE in the lower level. Vertical motion enhanced by conversion of APE to KE in the upper level was the major factor that promoted precipitation evolution. A positive feedback between APE and vertical motion in the upper level generated a powerful correlation between them. Conversion of KE to APE lasted longer in the lower level, which weakened vertical motion; whereas, northwestern cold advection brought an enhanced trend to the APE, resulting in a weak correlation between APE and vertical motion.摘要针对2018年7月10-11日青藏高原东部一次暴雨过程, 利用模式模拟资料分析了有效位能分布特征,成因及其对降水发展演变的影响.结果表明, 有效位能主要分布在对流层低层4km以下和高层8-14km, 高层有效位能和降水有更好的对应性西北冷平流和降水粒子下落的蒸发作用是低层有效位能高值中心的主要成因, 而降水过程释放潜热带来的热力扰动叠加高原大地形造成的位温扰动是导致高层有效位能高值的主要原因.有效位能收支分析表明, 有效位能的通量输送项以及与动能间的转换项是主要源汇项.低层有效位能的经向通量输送和动能向有效位能的转化补给了有效位能的耗散;高层有效位能向垂直动能转化增强垂直运动是促进降水发展演变的主要因素.高层有效位能与垂直运动之间的正反馈过程使得两者相关性较强;低层较长时间内均存在垂直动能向有效位能的转化, 削弱了垂直运动, 而西北冷平流使得低层有效位能有增强的趋势, 因此二者相关性较弱. 相似文献
20.
利用中国气象局人工影响天气中心研发的云参数卫星反演系统反演得到的产品,结合地面自动站观测资料,对2009年9月19—20日降水过程的云参数及地面雨量进行对比分析。结果发现:云顶高度、云顶温度、过冷层厚度和云光学厚度对本次降水过程指示性不强,而云粒子有效半径及云液水路径对降水有较好的指示作用,且云液水路径指示作用更强,二者的变化超前于地面降水30min到1h;云液水路径及云粒子有效半径大值区与地面雨量的大小呈正相关,云液水路径值大于400g.m-2及云粒子有效半径大于27μm区域与地面雨强中心位置基本一致。掌握云参数的演变规律,有助于监测、识别大范围人工影响天气作业条件和分析可播区。 相似文献