Estimate of intense rainfall equation parameters for rainfall stations of the Paraíba State, Brazil

Campos, Alcinei Ribeiro; Silva, João Batista Lopes da; Santos, Glênio Guimarães; Ratke, Rafael Felippe; Aquino, Itauane Oliveira de

doi:10.1590/1983-40632016v4743821

Cited by 7 publications

(6 citation statements)

References 17 publications

(13 reference statements)

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“…The spatial variability of coefficients a and b was also evidenced by other studies in different regions of Brazil and the world, for example, Campus et al (2014) in Piauí, Campos et al (2015) in Maranhão, Souza et al (2016) in Rondônia, Campos et al (2017) in Paraíba, Braga et al (2018) in Rio de Janeiro, Silva and Oliveira (2017) in the Northeast of Brazil, among others. Besides, the range of coefficients a (Figure 4) and b (Figure 5) is similar to those found by Oliveira (2019), who adjusted IDF equations for come locations in the state of RS based on pluviometric and pluviographic data.…”

Section: Resultssupporting

confidence: 68%

Intensity-Duration-Frequency equations for Rio Grande do Sul - Brazil, based on stationary rainfall series

et al. 2023

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Heavy rainfall information is essential for environmental studies and water engineering. This study therefore aimed to adjust Intensity-Duration-Frequency (IDF) equations for 247 locations in the Rio Grande do Sul (RS) using stationary rainfall series. Mann-Kendall’s test was applied to identify the temporal trends in the Annual Maximum Daily Rainfall (AMDR) series of 271 rain gauges in RS. The Kappa, Generalized Extreme Value (GEV), Gumbel, two-parameters Log-Normal and three-parameters Log-Normal probabilistic distributions were adjusted to the AMDR series without significant temporal trend. The best distribution fit was given by Anderson-Darling’s test, so the AMDR was discretized up to 5 minutes. IDF equations coefficients were adjusted in RStudio, using Nash-Sutcliffe’s Coefficient and the Root-Mean-Square Error to evaluate them. In conclusion: the most suitable distributions for the AMDR were the multiparametric Kappa and GEV; the IDF equations coefficients adjustment was classified as “excellent”; coefficients a and b varied across the RS and are correlated with the AMDR and geographical positions; and the c and d coefficients were practically constant. Keywords: goodness of fit test, Kappa probabilistic distribution, trends test.

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Section: Resultssupporting

confidence: 68%

Intensity-Duration-Frequency equations for Rio Grande do Sul - Brazil, based on stationary rainfall series

et al. 2023

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“…As one may observe from Table 3 (and also in Figure 5), the parameters in the numerator of the IDF model, λ and κ , which control the decay of the upper tail of the Gumbel distribution, smoothly vary across space, with a few abrupt variations at specific locations. This is probably related to distinct climate and topographic conditions along the study region (Aragão et al, 2013;Campos et al, 2014Campos et al, , 2017, which might intensify storm bursts at short time scales. In contrast, the parameters in the denominator, η and θ , are constant for all rainfall gauging stations, which may be ascribed to the disaggregation method -in effect, all gauges are located in the same isozone defined by the Departamento de Águas e Energia Elétrica (1980).…”

Section: Resultsmentioning

confidence: 98%

Assessing intensity-duration-frequency equations and spatialization techniques across the Grande River Basin in the state of Bahia, Brazil

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Costa

et al. 2022

RBRH

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Understanding the probabilistic behavior of extreme rainfall on a fine temporal and spatial scales is crucial for design and risk assessment of hydraulic structures. However, information at appropriate resolutions is frequently limited or unavailable at the locations of interest, thereby requiring the estimation of Intensity-Duration-Frequency (IDF) curves at the regional scale. In this paper, we resort to simplified approaches for rainfall disaggregation and spatialization for deriving a regional IDF equation for the Grande River catchment, in the Brazilian state of Bahia. Our results suggest that, at the daily time scale, the maximum rainfall amounts can be reasonably described by the light-tailed Gumbel distribution in the study region. The spatialization procedures indicated that, whereas both the Inverse Distance Weighting (IDW) and the ordinary kriging techniques could capture the spatial variability of rainfall quantiles, for several durations of practical interest, only the former was able to model the spatial variability of the IDF parameters. Finally, despite the simplifying assumptions, we were able to derive smooth spatial surfaces for the aforementioned quantities, which might be useful for the design of hydraulic structures at ungauged sites.

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“…No Brasil o procedimento mais usado é a esti mati va das chuvas de menor duração por meio da desagregação da chuva diária, sendo os coefi cientes de desagregação médios muito uti lizados (CETESB, 1986;PEREIRA et al, 2007;ARAGÃO et al, 2013;CAMPOS et al, 2017), assim como também a uti lização do método das isozonas, que leva em consideração oito regiões em todo território nacional (SANTOS, 2015;BAS-SO et al, 2016). Back & Cadorin (2021) fi zeram um levantamento de equações IDF publicadas no Brasil e constataram que das 3.096 equações cadastradas, 81% foram obti das por desagregação da chuva diária.…”

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Equação de chuvas intensas por desagregação de precipitação máxima diária para o estado de Santa Catarina

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Wildner²

2021

RAC

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No dimensionamento de estruturas de drenagem é necessário o conhecimento das intensidades de chuva de curta duração. No entanto, tais informações nem sempre estão disponíveis. O método da desagregação da chuva máxima diária é amplamente utilizado para a estimatva da chuva em locais com ausência de dados pluviográficos. Esse estudo teveo objetivo de ajustar uma equação alternativa para a obtenção das relações Intensidade-Duração-Frequência de chuvas pela desagregação da chuva máxima diária com base nas relações entre chuvas intensas de diferentes durações observadas em Santa Catarina. As equações ajustadas permitem estimar a altura pluviométrica e a intensidade da chuva para durações entre 5 e 1.440 minutos. O modelo ajustado para Santa Catarina apresenta valores de até 17% inferiores aos obtidos para o modelo ajustado para o Brasil.

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Estimate of intense rainfall equation parameters for rainfall stations of the Paraíba State, Brazil

Cited by 7 publications

References 17 publications

Intensity-Duration-Frequency equations for Rio Grande do Sul - Brazil, based on stationary rainfall series

Intensity-Duration-Frequency equations for Rio Grande do Sul - Brazil, based on stationary rainfall series

Assessing intensity-duration-frequency equations and spatialization techniques across the Grande River Basin in the state of Bahia, Brazil

Equação de chuvas intensas por desagregação de precipitação máxima diária para o estado de Santa Catarina

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