Rado Yendra, - and Ari Pani Desvina, - and RAHMADENI, - and Abdul Aziz Jemain, - and Wan Zawiah Wan Zin, - and Ahmad Fudholi, - (2015) Rainfall Storm Modeling of Neyman-Scott Rectangular Pulse (NSRP) using Rainfall Cell Intensity Distributions. Research Journal of Applied Sciences, 11 (9). pp. 969-974. ISSN 2040-7459 (Printed); 2040-7467 (Online)

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Abstract

In this research a rainfall storm modeling using stochastic model of Nyeman-Scott Rectangular Pulse (NSRP) will be applied using different distributions on the rainfall cell intensity such as exponent, mix exponent, gamma and weibull distributions. The modeling conducted on the rain station of Alosetar uses data taken every hour during a period of 38 years (1971-2008) and it shows that most of the months the rain cells on NSRP model have been distributed to exponential and gamma. Based on parsimoni principles, it can be concluded that NSRP modeling on the rain station of Alorsetar has the intensity of rainfall cells exponentially distributed. Furthermore, in this research also yields a fact that the mix exponent distribution is unfitted for the rainfall cells using NSRP modeling on the rain station of Alorsetar. Keywords: Gamma, mix exponent, NSRP, rainfall storm, weibull

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