Numerical Experiments on Spatially Averaged Precipitation in Heavy Rainfall Event Using the WRF Model

被引:2
|
作者
Sugihara, Yuji [1 ]
Imagama, Sho [2 ]
Matsunaga, Nobuhiro [1 ]
Hisada, Yukiko [1 ]
机构
[1] Kyushu Univ, Fac Engn Sci, 6-1 Kasuga Koen, Kasuga, Fukuoka 8168580, Japan
[2] Mitsubishi Heavy Ind Co Ltd, Chuo Ku, Sagamihara, Kanagawa 2525293, Japan
来源
JOURNAL OF DISASTER RESEARCH | 2015年 / 10卷 / 03期
关键词
heavy rainfall; spatially averaged precipitation; rain band; WRF model;
D O I
10.20965/jdr.2015.p0436
中图分类号
P [天文学、地球科学];
学科分类号
07 ;
摘要
It is difficult to forecast hourly rainfall locally even using the latest meteorological models, although hourly rainfall averaged spatially to some extent can be used for calculating practical rainfall. This study conducts numerical experiments with triple nesting on the 2012 heavy rainfall event in northern Kyushu using the weather research and forecasting (WRF) model and examines the features of hourly rainfall averaged spatially. The dependence of rainfall is averaged spatially on a spatial averaging scale and clarified by comparing rainfall calculated by simulation using the WRF model with radar/AMeDAS precipitation analysis data. This study's findings indicate the effective spatial averaging scale making relative error of calculated values to the observed ones minimum.
引用
收藏
页码:436 / 447
页数:12
相关论文
共 50 条
  • [31] Numerical simulation of the heavy rainfall caused by a convection band over Korea: a case study on the comparison of WRF and CReSS
    Eun-Soon Im
    So-Ra In
    Sang-Ok Han
    Natural Hazards, 2013, 69 : 1681 - 1695
  • [32] Numerical simulation of the heavy rainfall caused by a convection band over Korea: a case study on the comparison of WRF and CReSS
    Im, Eun-Soon
    In, So-Ra
    Han, Sang-Ok
    NATURAL HAZARDS, 2013, 69 (03) : 1681 - 1695
  • [33] A Numerical Simulation Study of a Heavy Rainfall Event over Daegwallyeong on 31 July 2014
    Choi, Seung-Bo
    Lee, Jae Gyoo
    ATMOSPHERE-KOREA, 2016, 26 (01): : 159 - 183
  • [34] Sensitivity of WRF to boundary layer parameterizations in simulating a heavy rainfall event using different microphysical schemes. Effect on large-scale processes
    Efstathiou, G. A.
    Zoumakis, N. M.
    Melas, D.
    Lolis, C. J.
    Kassomenos, P.
    ATMOSPHERIC RESEARCH, 2013, 132 : 125 - 143
  • [35] A NUMERICAL STUDY OF TROPICAL DEEP CONVECTION USING WRF MODEL
    Li Jia-peng
    Yin Yan
    Jin Lian-ji
    Zhang Cheng-zhu
    JOURNAL OF TROPICAL METEOROLOGY, 2010, 16 (03) : 247 - 254
  • [36] A NUMERICAL STUDY OF TROPICAL DEEP CONVECTION USING WRF MODEL
    李嘉鹏
    银燕
    金莲姬
    张成竹
    JournalofTropicalMeteorology, 2010, 16 (03) : 247 - 254
  • [37] An Improved Statistical Method for Rainfall Forecasting in Sri Lanka using the WRF Model
    Perera, V. A. P. C.
    Peiris, K. G. H. S.
    2020 INTERNATIONAL CONFERENCE AND UTILITY EXHIBITION ON ENERGY, ENVIRONMENT AND CLIMATE CHANGE (ICUE 2020), 2020,
  • [38] The Effects of Typhoon Initialization and Dropwindsonde Data Assimilation on Direct and Indirect Heavy Rainfall Simulation in WRF model
    Lee, Ji-Woo
    JOURNAL OF THE KOREAN EARTH SCIENCE SOCIETY, 2015, 36 (05): : 460 - 475
  • [39] Assessment of the WRF model configuration optimization in predicting the heavy rainfall over urban city Bhubaneswar, India
    Alugula Boyaj
    N. R. Karrevula
    Madhusmita Swain
    P. Sinha
    Raghu Nadimpalli
    Sahidul Islam
    V. Vinoj
    Manoj Khare
    Dev Niyogi
    U. C. Mohanty
    Computational Urban Science, 5 (1):
  • [40] Diurnal cycle of rainfall as predicted by WRF model : Verification using model evaluation tools software
    Sen Roy, Soma
    Saha, Subhendu Brata
    Das, Ananda Kumar
    Bhowmik, S. K. Roy
    Kundu, P. K.
    MAUSAM, 2015, 66 (03): : 433 - 444
12345