Abstract
The recorded historical series of precipitation are usually available for short periods of time and with many failures. The use of mathematical modeling to simulate rainfall is a tool used to circumvent this problem and to simulate the operation of water systems in different scenarios. The present study applies mathematical modeling to the hourly pluviometric precipitation data simulation. A pluviographical data set from October 1980 to December 2007 was used in the study. Precipitation data sets were obtained through daily pluviometric digitalization from the Meteorologic Station of Epagri at Urussanga, in southern Santa Catarina, Brazil (latitude 28º 31’ S and longitude 48º 19’ W). To simulate the hourly rain series, the stochastic model was modified based on the Bartlett-Lewis rectangular pulses model with six parameters. Those parameters were fitted by minimizing a function related to the analytical expressions that define the average, variance, and autocorrelation coefficient at lag 1 and the probability of a dry period related to the estimated values from the observed data. Ten series were simulated for 100 years of data. Data analyses and results showed that fitting Bartlett-Lewis model parameters makes it possible to simulate hourly rainfall while preserving precipitation statistical properties at several temporal aggregation levels. In general, the probability of dry periods tended to be overestimated.
Highlights
Pluvial precipitation is a climate element that presents high spatial and temporal variability, and its excessive or rare occurrence usually causes damage to agricultural production as well as problems for people
The rains are obtained through long term data sets; they can only be obtained where there is a long term daily pluvial precipitation recording
The objective of this study is to apply mathematical modeling to simulate hourly precipitation data series for Urussanga, Santa Catarina State, that are capable of producing long series of rainfall data without errors in the reporting
Summary
Pluvial precipitation is a climate element that presents high spatial and temporal variability, and its excessive or rare occurrence usually causes damage to agricultural production as well as problems for people. To summarize the engineering attempts to solve that problem, rainfall. Agronomy values are used together with occurrence risks. This process is known as design rainfall. The rains are obtained through long term data sets; they can only be obtained where there is a long term daily pluvial precipitation recording. In Brazil, it is relatively easy to obtain daily pluvial precipitation data sets, but for shorter
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