葫芦岛“8·20”特大暴雨过程多源融合实况插补站点数据适用性评估

doi:10.3969/j.issn.1673-503X.2025.04.003

Abstract

Abstract: The use of multi-source fusion grid real-time analysis products to interpolate missing station observation data can maintain the continuity of precipitation data.Selecting precipitation observation data from 39 faulty stations in Huludao from 05:00 on August 20,to 08:00 on August 24,2024 as the testing source,and using correlation analysis and other methods to evaluate and test the interpolation station data of multi-source fusion precipitation grid real-time products.The results showed that the proportion of real-time interpolation station data with precipitation observation errors within ±2 mm · h^-1 was 83.12%.The multi-source fusion of real-time interpolation station data can accurately reflect the precipitation intensity of Huludao,achieving the expected goal.Among them,the interpolation results of Jianchang Bashhan Station are relatively the best,while the interpolation results of Jianchang Tangshenmiao Station are relatively the worst; The grading test results show that the interpolation results for precipitation intensity below 20 mm · h^-1 are good,with 86.34% of the results having an error within ±2 mm · h^-1.As the hourly precipitation intensity increases,the actual interpolation results for hourly precipitation deteriorate,and the interpolation results for extreme precipitation above 50 mm ·h^-1 are relatively small.

Key words: Precipitation intensity, Extreme precipitation, Precipitation situation

CLC Number:

P459

SU Yumeng, ZHAI Qingfei, SHAN Weiwei, LUAN Yongming, REN Chuan, WANG Weiqi, PANG Zihao, LIU Jingnan. Applicability evaluation of multi-source fusion real-time interpolation station data in the “8·20” extraordinary precipitation process in Huludao[J]. Journal of Meteorology and Environment, 2025, 41(4): 21-27.

References

[1] 张璐,潘旸,谷军霞,等.国际主流多源融合降水实况产品的研究进展与展望[J].气象科技进展,2022,12(6):16-27.
[2] 江志红,卢尧,丁裕国.基于时空结构指标的中国融合降水资料质量评估[J].气象学报,2013,71(5):891-900.
[3] 候启,师春香,盛春岩,等.多源融合降水实况产品在日照市暴雨过程中的适用性[J].气象研究与应用,2024,45(1):56-63.
[4] 宇婧婧,沈艳,潘旸,等.中国区域逐日融合降水数据集与国际降水产品的对比评估[J].气象学报,2015,73(2):394-410.
[5] 吴薇,黄晓龙,徐晓莉,等.融合降水实况分析产品在四川地区的适用性评估[J].沙漠与绿洲气象,2021,15(04):1-8.
[6] 龙柯吉,谷军霞,师春香,等.多种降水实况融合产品在四川一次强降水过程中的评估[J].高原山地气象研究,2020,40(2):31-37.
[7] 杜冰,吴薇,黄晓龙,等.基于多源降水融合试验的四川省降水实况分析产品优化[J].气象与环境学报,2023,39(4):155-161.
[8] 张春燕,郑艳萍,王沛东,等.多源融合实况分析1 km网格降水产品在广东省暴雨过程中的准确性评估[J].暴雨灾害,2023,42(6):679-691.
[9] 李萍,陈传雷,陈宇,等.2016—2021年5—10月辽宁省降水量时空分布精细化特征分析[J].气象与环境学报,2024,40(4):54-63.
[10] 潘旸,谷军霞,宇婧婧,等.中国区域高分辨率多源降水观测产品的融合方法试验[J].气象学报,2018,76(5):755-766.
[11] 师春香,潘旸,谷军霞,等.多源气象数据融合格点实况产品研制进展[J].气象学报,2019,77(4):774-783.
[12] 沈艳,冯明农,张洪政,等.我国逐日降水量格点化方法[J].应用气象学报,2010,21(3):279-286.
[13] 沈艳,潘旸,宇婧婧,等.中国区域小时降水量融合产品的质量评估[J].大气科学学报,2013,36(1):37-46.
[14] 沈艳,潘旸,徐宾,等.最优插值法在对中国自动站降水量空间分析中的参数优化[J].成都信息工程学院学报,2012,27(2):219-224.
[15] 庄园煌,陈宏,余文韬,等.多源融合降水实况分析产品在海河流域的适用性评估[J].气候与环境研究,2024,29(1):25-35.
[16] 孙喜艳,伍志方,梁巧倩,等.广东省不同等级小时强降水时空特征分析[J].自然灾害学报,2017,26(5):102-109.
[17] 伍红雨,李春梅,刘蔚琴.1961—2014年广东小时强降水的变化特征[J].气象,2017,43(3):305-314.
[18] 唐永兰,徐桂荣,唐国瑛,等.“23·7”华北特大暴雨过程小时强降水时空分布特征[J].大气科学学报,2024,47(5):778-788.

Applicability evaluation of multi-source fusion real-time interpolation station data in the “8·20” extraordinary precipitation process in Huludao

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