A Dynamic Early Warning Model for Flash Floods Based on Rainfall Pattern Identification

Wenlin Yuan; Bohui Jing; Hongshi Xu; Yanjie Tang; Shuaihu Zhang

doi:10.1007/s13753-024-00593-3

International Journal of Disaster Risk Science ›› 2024, Vol. 15 ›› Issue (5) : 769 -788. DOI: 10.1007/s13753-024-00593-3

Article

A Dynamic Early Warning Model for Flash Floods Based on Rainfall Pattern Identification

Author information +

History +

PDF

Abstract

Flash floods are one of the most devastating natural hazards in mountainous and hilly areas. In this study, a dynamic warning model was proposed to improve the warning accuracy by addressing the problem of ignoring the randomness and uncertainty of rainfall patterns in flash flood warning. A dynamic identification method for rainfall patterns was proposed based on the similarity theory and characteristic rainfall patterns database. The characteristic rainfall patterns were constructed by k-means clustering of historical rainfall data. Subsequently, the dynamic flood early warning model was proposed based on the real-time correction of rainfall patterns and flooding simulation by the HEC-HMS (Hydrologic Engineering Center’s Hydrologic Modeling System) model. To verify the proposed model, three small watersheds in China were selected as case studies. The results show that the rainfall patterns identified by the proposed approach exhibit a high correlation with the observed rainfall. With the increase of measured rainfall information, the dynamic correction of the identified rainfall patterns results in corresponding flood forecasts with Nash-Sutcliffe efficiency (NSE) exceeding 0.8 at t = 4, t = 5, and t = 6, thereby improving the accuracy of flash flood warnings. Simultaneously, the proposed model extends the forecast lead time with high accuracy. For rainfall with a duration of six hours in the Xinxian watershed and eight hours in the Tengzhou watershed, the proposed model issues early warnings two hours and three hours before the end of the rainfall, respectively, with a warning accuracy of more than 0.90. The proposed model can provide technical support for flash flood management in mountainous and hilly watersheds.

Keywords

China / Dynamic early warning model / Flash floods / HEC-HMS model / Rainfall pattern identification

Cite this article

Download citation ▾

Wenlin Yuan, Bohui Jing, Hongshi Xu, Yanjie Tang, Shuaihu Zhang. A Dynamic Early Warning Model for Flash Floods Based on Rainfall Pattern Identification. International Journal of Disaster Risk Science, 2024, 15(5): 769-788 DOI:10.1007/s13753-024-00593-3

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Adamovic M, Branger F, Braud I, Kralisch S. Development of a data-driven semi-distributed hydrological model for regional scale catchments prone to Mediterranean flash floods. Journal of Hydrology, 2016, 541: 173-189

[2]	Alipour A, Ahmadalipour A, Abbaszadeh P, Moradkhani H. Assessing flash flood hazard and damages in the southeast United States. Journal of Flood Risk Management, 2020, 15(2): Article 024011

[3]	Borga M, Anagnostou EN, Blöschl G, Creutin JD. Flash flood forecasting, warning and risk management: The HYDRATE project. Environmental Science & Policy, 2011, 14(7): 834-844

[4]	Bournas A, Baltas E. Investigation of the gridded flash flood guidance in a peri-urban basin in greater Athens area, Greece. Journal of Hydrology, 2022, 610: 127820

[5]	Caruso BS, Rademaker M, Balme A, Cochrane TA. Flood modelling in a high country mountain catchment, New Zealand: Comparing statistical and deterministic model estimates for ecological flows. Hydrological Sciences Journal, 2013, 58(2): 328-341

[6]	Cheng X, Ma X, Wang W, Xiao Y, Liu X. Application of HEC-HMS parameter regionalization in small watershed of hilly area. Water Resources Management, 2021, 35(4): 1-16

[7]	Clark RA, Gourley JJ, Flamig ZL, Hong Y, Clark E. CONUS-wide evaluation of national weather service flash flood guidance products. Weather and Forecasting, 2014, 29(2): 377-392

[8]	Custodio DA, Ghisi E. Impact of residential rainwater harvesting on stormwater runoff. Journal of Environmental Management, 2023, 326(PB): Article 116814

[9]	Fares L, Rachid M. Comparison of WBNM and HEC-HMS for runoff hydrograph prediction in a small urban catchment. Water Resources Management, 2015, 29(8): 2485-2501

[10]	Farida D, Javier B, Skhiri A. SWAT application in intensive irrigation systems: Model modification, calibration and validation. Journal of Hydrology, 2012, 470: 227-238

[11]	Fernández DS, Lutz MA. Urban flood hazard zoning in Tucumán province, Argentina, using GIS and multicriteria decision analysis. Engineering Geology, 2010, 111(1–4): 90-98

[12]	Forestieri A, Caracciolo D, Arnone E. Derivation of rainfall thresholds for flash flood warning in a Sicilian basin using a hydrological model. Procedia Engineering, 2016, 154(C): 818-825

[13]	Gaume E, Bain V, Bernardara P, Newinger O, Barbuc M, Bateman A, Viglione A. A compilation of data on European flash floods. Journal of Hydrology, 2009, 367(1): 70-78

[14]	Georgakakos KP. Analytical results for operational flash flood guidance. Journal of Hydrology, 2006, 317(1–2): 81-103

[15]	Han L, Xu Y, Pan G, Deng X, Hu C, Xu H, Shi H. Changing properties of precipitation extremes in the urban areas, Yangtze River Delta, China, during 1957–2013. Natural Hazard, 2015, 79(1): 437-454

[16]	Hou J, Guo K, Wang Z, Jing H, Li D. Numerical simulation of design storm pattern effects on urban flood inundation. Advances in Water Science, 2017, 6: 820-828 (in Chinese)

[17]	Huff FA. Time distribution of rainfall in heavy storms. Water Resources Research, 1967, 3(4): 1007-1010

[18]	Javelle P, Fouchier C, Arnaud P, Lavabre J. Flash flood warning at ungauged locations using radar rainfall and antecedent soil moisture estimations. Journal of Hydrology, 2010, 394(1–2): 267-274

[19]	Keifer CJ, Chu HH. Synthetic storm pattern for drainage design. Journal of the Hydraulics Division ASCE, 1957, 83(4): 1-25

[20]	Kong F, Huang W, Wang Z, Song X. Effect of unit hydrographs and rainfall hyetographs on critical rainfall estimates of flash flood. Advances in Meteorology, 2020, 2020(4): 1-15

[21]	Lagarias JC, Reeds JA, Wright MH, Wright PE. Convergence properties of the nelder-mead simplex method in low dimensions. SIAM Journal of Optimization, 1998, 9(1): 112-147

[22]	Máca P, Torfs P. The influence of temporal rainfall distribution in the flood runoff modelling. Soil & Water Research, 2009, 4: S102-S110

[23]	Mohammadtaghi A, Hamidreza M, Mehdi LR. Predicting temporal and spatial variability in flood vulnerability and risk of rural communities at the watershed scale. Journal of Environmental Management, 2022, 323: Article 116261

[24]	Montesarchio V, Napolitano F, Rianna M, Ridolfi E, Russo F, Sebastianelli S. Comparison of methodologies for flood rainfall thresholds estimation. Natural Hazards, 2015, 75(1): 909-934

[25]	Narasimha Murthy KV, Saravana R, Vijaya KK. Modeling and forecasting rainfall patterns of southwest monsoons in North-East India as a SARIMA process. Meteorology and Atmospheric Physics, 2018, 130(1): 99-106

[26]	Norbiato D, Borga M, Dinale R. Flash flood warning in ungauged basins by use of the flash flood guidance and model-based runoff thresholds. Meteorological Applications, 2009, 16(1): 65-75

[27]	Norbiato D, Borga M, Esposti SD, Gaume E, Anquetin S. Flash flood warning based on rainfall thresholds and soil moisture conditions: An assessment for gauged and ungauged basins. Journal of Hydrology, 2008, 362(3–4): 274-290

[28]	Palynchuk BA, Guo Y. A probabilistic description of rain storms incorporating peak intensities. Journal of Hydrology, 2011, 409(1–2): 71-80

[29]	Pilgrim DH, Cordery I. Rainfall temporal patterns for design floods. Journal of the Hydraulics Division ASCE, 1975, 101(1): 81-95

[30]	Powers JG, Klemp JB, Skamarock WC, Davis CA, Dudhia J, Gill DO, Coen JL, Gochis DJ, Ahmadov R, Peckham SE, Grell GA. The weather research and forecasting model: Overview, system efforts, and future directions. Bulletin of the American Meteorological Society, 2017, 98(8): 1717-1737

[31]	Roux H, Labat D, Garambois PA, Maubourguet MM, Chorda J, Dartus D. A physically-based parsimonious hydrological model for flash floods in Mediterranean catchments. Natural Hazards & Earth System Sciences, 2011, 11(9): 2567-2582

[32]	Seann R, John S, Zhang Z. A distributed hydrologic model and threshold frequency-based method for flash flood forecasting at ungauged locations. Journal of Hydrology, 2007, 337(3–4): 402-420

[33]	Seo D, Lakhankar T, Meijia J, Cosgrove B, Khanbilvardi R. Evaluation of operational national weather service gridded flash flood guidance over the Arkansas red river basin. JAWRA Journal of the American Water Resources Association, 2013, 49(6): 1296-1307

[34]	Shi C, Wei B, Wei S, Wang W, Liu H, Liu J. A quantitative discriminant method of elbow point for the optimal number of clusters in clustering algorithm. Eurasip Journal on Wireless Communications and Networking, 2021, 2021: Article 31

[35]	Tao W, Wu J, Wang Q. Mathematical model of sediment and solute transport along slope land in different rainfall pattern conditions. Scientific Reports, 2017, 7(1–4): Article 44082

[36]	Wang L, Ye L, Wu J, Chang Q, Zhang C. Study on the applicability of hydrological model for small watersheds in hilly areas. China Rural Water and Hydropower, 2018, 424(02): 78-84 (in Chinese)

[37]	Xu C, Xia M, Sen W, Yao X, Li W, Xin L. Application of HEC-HMS parameter regionalization in small watershed of hilly area. Water Resources Management, 2021, 35(6): 1961-1976

[38]	Yang T, Yang S, Ho J, Lin G. Flash flood warnings using the ensemble precipitation forecasting technique: A case study on forecasting floods in Taiwan caused by typhoons. Journal of Hydrology, 2015, 520: 367-378

[39]	Yang X, Zhu B, Li Y, Hua K. Simulation of nonpoint source nitrogen transport in two separated catchments in the hilly area of purple soil. Journal of Hydraulic Engineering, 2013, 44(10): 1197-1203

[40]	Yang X, Zhu D, Li C, Liu Z. Establishment of design hyetographs based on risk probability models. Journal of Hydraulic Engineering, 2013, 44(5): 542-548 (in Chinese)

[41]	Yuan W, Fu L, Gao Q. Study on critical rainfall of flash flood based on HEC-HMS model. Yellow River, 2019, 41(8): 22-27 (in Chinese)

[42]	Yuan W, Liu M, Wan F. Calculation of critical rainfall for small-watershed flash floods based on the HEC-HMS hydrological model. Water Resources Management, 2019, 33(7): 2555-2575

[43]	Yuan W, Tu X, Su C, Liu M, Yan D, Wu Z. Research on the critical rainfall of flash floods in small watersheds based on the design of characteristic rainfall patterns. Water Resources Management, 2021, 35(10): 1-23

[44]	Zhong M, Zeng T, Jiang T, Wu H, Hong Y. A copula-based multivariate probability analysis for flash flood risk under the compound effect of soil moisture and rainfall. Water Resources Management, 2021, 35(4): 83-98