辽宁地区分级冰雹天气逐月物理参量特征与雷达回波分析
|
摘要
为研究辽宁地区不同等级冰雹发生时的环境场特征,寻找致雹物理参量特征及雷达临近预警指标,利用辽宁地区2006—2015年常规地面气象观测资料、美国国家环境预报中心NCEP/FNL (1°×1°)以及辽宁省内新一代多普勒天气雷达资料,详细分析并归纳了辽宁地区降雹时间内的物理参数特征及雷达回波指标。结果表明:冰雹天气发生时水汽条件表现为整层大气可降水量随冰雹等级增大而增大,850 h Pa和500 hPa温度差在各等级之间不明显,均值大于24℃,0~6 km垂直风切变明显高于正常日。特征层高度在6、7月高于5、8、9月,红色级别特征层高度略低于其他级别。雷达特征表现为随冰雹等级增大,回波中心强度、液态水含量及回波顶高都增加,其中液态水含量、回波顶高在红色冰雹发生时分别可以达到60 kg/m2和14 km,上述两项指标在短临预报预警中判别冰雹等级具有一定的指导意义。
To find the characteristics of the environmental parameters of hail with different levels, seek the physical parameters and early-warning index of hail, based on NCEP/FNL(1°×1°) and Doppler weather radar data from 2006 to 2015, the physical parameters and radar echo were analyzed. The results showed that the precipitation capacity of the whole atmosphere increased with the increase of hail grade, the temperature difference between 850 hPa and 500 hPa was higher than 24℃, but not significant between each level. The vertical wind shear of 0~6 km was obviously higher than that of normal day. The height of characteristic level of June and July was higher than that of May, August and September. Layer height of red grade was slightly lower than that of others. Radar echo center intense, liquid water content and the top of echo increased with the increase of hail grade, and when the red hail occurred, the liquid water content reached 60 kg/m2 and the top of echo reached 14 km, these two parameters had guiding significance in short time forecast.
To find the characteristics of the environmental parameters of hail with different levels, seek the physical parameters and early-warning index of hail, based on NCEP/FNL(1°×1°) and Doppler weather radar data from 2006 to 2015, the physical parameters and radar echo were analyzed. The results showed that the precipitation capacity of the whole atmosphere increased with the increase of hail grade, the temperature difference between 850 hPa and 500 hPa was higher than 24℃, but not significant between each level. The vertical wind shear of 0~6 km was obviously higher than that of normal day. The height of characteristic level of June and July was higher than that of May, August and September. Layer height of red grade was slightly lower than that of others. Radar echo center intense, liquid water content and the top of echo increased with the increase of hail grade, and when the red hail occurred, the liquid water content reached 60 kg/m2 and the top of echo reached 14 km, these two parameters had guiding significance in short time forecast.
引文
[1]马鸿青,于雷,司丽丽,等.保定地区冰雹的气候及物理量参数特征[J].干旱气象,2014,32(4):616-621.
[2]李崇,吉曹翔,夏传栋,等.沈阳地区强对流天气潜势预报环境参数特征分析[J].气象与环境学报,2016,32(6):43-51.
[3]陈传雷,吴晓峰,孙晓巍,等.辽宁省强对流性天气的气候特征分析[J].气象与环境学报,2010,26(3):27-33.
[4]刘寿东,唐玉淇,邵玲玲,等.LAPS分析场在一次强对流天气过程尺度分析中的应用[J].大气科学学报,2012,35(4):391-403.
[5]刘志雄,戴泽军,彭菊香,等.基于LAPS的一次局地强冰雹过程分析[J].暴雨灾害,2009,28(4):313-320.
[6]李汉超,毕力格,田颖,等.内蒙古巴彦淖尔市冰雹天气云地闪电特征分析[J].科学技术与工程.2017,17(23):148-154.
[7]崔慧慧,冯慧敏.东北冷涡持续影响下郑州地区多日对流性天气特征分析[J].科学技术与工程,2017,17(6):7-16.
[8]张宁.模式云微物理参数化方案预报效果分析[J].气象与环境科学,2016,39(3):50-59.
[9]仇娟娟,何立富.苏沪浙地区短时强降水与冰雹天气分布及物理量特征对比分析[J].气象,2013,39(5):577-584.
[10]陈涛,张芳华,宗志平.一次南方春季强对流过程中影响对流发展的环境场特征分析[J].高原气象,2012,31(4):1019-1031.
[11]俞小鼎.基于构成要素的预报方法-配料法[J].气象,2014,40(9):1058-1065.
[12]胡胜,胡东明,汪瑛,等.双线偏振多普勒雷达及其探测技术的应用[J].广东气象,2006(4):12-16.
[13]王秀玲,郭丽霞,高桂琴,等.唐山地区冰雹气候特征与雷达回波分析[J].气象,2012,38(3):344-348.
[14]周小刚,费海燕,王秀明,等.多普勒雷达探测冰雹的算法发展与业务应用讨论[J].气象,2015,41(11):1390-1397.
[15]王凯,王秀丽,达布希拉图,等.利用探空资料统计分析巴彦淖尔市冰雹过程的物理量特征[J].内蒙古气象,2017,5(1):23-27.
[16]沈澄,孙燕,魏晓奕,等.基于物理量参数的江苏短时强降水预报模型的研究[J].气象,42(5):557-266.
[17]李崇,吉曹翔,夏传栋,等.沈阳地区强对流天气潜势预报环境参数特征分析[J].气象与环境学报,2016,32(6):43-51.
[18]张一平,吴蓁,苏爱芳,等.基于流型识别和物理量要素分析河南强对流天气特征[J].高原气象2013,32(5):1492-1502.
[19]段鹤,严华生,马学文,等.滇南冰雹的预报预警方法研究[J].气象,2014,40(2):174-185.
[20]潘留杰,张宏芳,王楠,等.陕西一次强对流天气过程的中尺度及雷达观测分析[J].高原气象,2013,32(1):278-289.
[2]李崇,吉曹翔,夏传栋,等.沈阳地区强对流天气潜势预报环境参数特征分析[J].气象与环境学报,2016,32(6):43-51.
[3]陈传雷,吴晓峰,孙晓巍,等.辽宁省强对流性天气的气候特征分析[J].气象与环境学报,2010,26(3):27-33.
[4]刘寿东,唐玉淇,邵玲玲,等.LAPS分析场在一次强对流天气过程尺度分析中的应用[J].大气科学学报,2012,35(4):391-403.
[5]刘志雄,戴泽军,彭菊香,等.基于LAPS的一次局地强冰雹过程分析[J].暴雨灾害,2009,28(4):313-320.
[6]李汉超,毕力格,田颖,等.内蒙古巴彦淖尔市冰雹天气云地闪电特征分析[J].科学技术与工程.2017,17(23):148-154.
[7]崔慧慧,冯慧敏.东北冷涡持续影响下郑州地区多日对流性天气特征分析[J].科学技术与工程,2017,17(6):7-16.
[8]张宁.模式云微物理参数化方案预报效果分析[J].气象与环境科学,2016,39(3):50-59.
[9]仇娟娟,何立富.苏沪浙地区短时强降水与冰雹天气分布及物理量特征对比分析[J].气象,2013,39(5):577-584.
[10]陈涛,张芳华,宗志平.一次南方春季强对流过程中影响对流发展的环境场特征分析[J].高原气象,2012,31(4):1019-1031.
[11]俞小鼎.基于构成要素的预报方法-配料法[J].气象,2014,40(9):1058-1065.
[12]胡胜,胡东明,汪瑛,等.双线偏振多普勒雷达及其探测技术的应用[J].广东气象,2006(4):12-16.
[13]王秀玲,郭丽霞,高桂琴,等.唐山地区冰雹气候特征与雷达回波分析[J].气象,2012,38(3):344-348.
[14]周小刚,费海燕,王秀明,等.多普勒雷达探测冰雹的算法发展与业务应用讨论[J].气象,2015,41(11):1390-1397.
[15]王凯,王秀丽,达布希拉图,等.利用探空资料统计分析巴彦淖尔市冰雹过程的物理量特征[J].内蒙古气象,2017,5(1):23-27.
[16]沈澄,孙燕,魏晓奕,等.基于物理量参数的江苏短时强降水预报模型的研究[J].气象,42(5):557-266.
[17]李崇,吉曹翔,夏传栋,等.沈阳地区强对流天气潜势预报环境参数特征分析[J].气象与环境学报,2016,32(6):43-51.
[18]张一平,吴蓁,苏爱芳,等.基于流型识别和物理量要素分析河南强对流天气特征[J].高原气象2013,32(5):1492-1502.
[19]段鹤,严华生,马学文,等.滇南冰雹的预报预警方法研究[J].气象,2014,40(2):174-185.
[20]潘留杰,张宏芳,王楠,等.陕西一次强对流天气过程的中尺度及雷达观测分析[J].高原气象,2013,32(1):278-289.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |