In this work, the capability of STORAGE (STOchastic RAinfall GEnerator) model for generating long and continuous rainfall series for the upper Vistula basin (southern Poland) is tested. Specifically, in the selected area, only parameters of depth-duration-frequency curves are known for sub-daily rainfall heights (which are usually estimated in an indirect way by using Lambor's equations from daily data), while continuous daily series with a sufficient sample size are available. Attention is focused on modelling the sample frequency distributions of daily annual maximum rainfall. The obtained results are promising for further elaborations, concerning the use of STORAGE synthetic continuous rainfall data as input for a continuous rainfall-runoff approach, to be preferred with respect to classical event-based modelling.
Modelling annual maximum daily rainfall with the STORAGE (STOchastic RAinfall GEnerator) model / Petroselli, Andrea; DE LUCA, Davide Luciano; M(\l)y('(n))ski, Dariusz; Wa(\l)(\k(e))ga, Andrzej. - In: HYDROLOGY RESEARCH. - ISSN 1998-9563. - 53:3(2022), pp. 547-561. [10.2166/nh.2022.100]
Modelling annual maximum daily rainfall with the STORAGE (STOchastic RAinfall GEnerator) model
Davide Luciano De LucaSecondo
;
2022
Abstract
In this work, the capability of STORAGE (STOchastic RAinfall GEnerator) model for generating long and continuous rainfall series for the upper Vistula basin (southern Poland) is tested. Specifically, in the selected area, only parameters of depth-duration-frequency curves are known for sub-daily rainfall heights (which are usually estimated in an indirect way by using Lambor's equations from daily data), while continuous daily series with a sufficient sample size are available. Attention is focused on modelling the sample frequency distributions of daily annual maximum rainfall. The obtained results are promising for further elaborations, concerning the use of STORAGE synthetic continuous rainfall data as input for a continuous rainfall-runoff approach, to be preferred with respect to classical event-based modelling.| File | Dimensione | Formato | |
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