M.I. Aho scite author profile

M.I. Aho

2Publications

16Citation Statements Received

28Citation Statements Given

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Rainfall intensity-duration-frequency models for Lokoja Metropolis, Nigeria

Akpen¹,

Aho²,

Musa³

2019

Glo Jnl Pure Appl Sci

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Intensity-Duration-Frequency (IDF) relationship is one of the most commonly used tools in water resources engineering. The purpose of this study was to develop rainfall intensity-duration-frequency models/curves for Lokoja Metropolis, Kogi State, Nigeria. Rainfall data was obtained from Nigeria Meteorological Agency (NIMET) and sorted for frequency analysis. Five different frequency analysis techniques namely; Normal, Log-Normal, Gumbel, Pearson Type III and Log-Pearson Type III distributions were used to develop the IDF relationships for Lokoja. Storm durations of 5, 10, 20, 30, 45, 60, 90 and 120 minutes, and return periods of 2, 5, 10, 25, 50 and 100 years were adopted for the derivation of the models. Kolmogorov-Smirnov and Anderson Darling goodness of fit tests were conducted using Easy Fit software to ascertain the best distribution that fits the data. A power-law model was adopted in developing the desired IDF models/ curves for the study area. The results of the goodness of fit showed that all the five distributions were not rejected both at 5% and 1% significance levels except Pearson Type III which recorded Anderson-Darling value of 3.0814 at 30 minutes' duration which is above the critical value of 2.5018 at 5% level of significance. Although, all the distributions gave good results, Log-Pearson Type III distribution was adjudged the best for the study area because of its best ranking. It is recommended that the IDF models/curves derived in this study should be used as tools for prediction of rainfall events for design of hydraulic structures in the study area. Also, more meteorological stations should be created in the country and properly equipped to generate requisite data for planning and design of water resources systems.

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Evaluation of Rainfall Erosivity Index for Abuja, Nigeria Using Lombardi Method

Isikwue¹,

Ocheme²,

Aho³

2014

Nig. J. Tech.

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Rainfall erosivity index is one of the important factors influencing soil erosion. Erosivity index for Abuja, Rainfall erosivity index is one of the important factors influencing soil erosion. Erosivity index for Abuja, Rainfall erosivity index is one of the important factors influencing soil erosion. Erosivity index for Abuja, Rainfall erosivity index is one of the important factors influencing soil erosion. Erosivity index for Abuja, was evaluated using the Lombad was evaluated using the Lombad was evaluated using the Lombad was evaluated using the Lombadi i i i method. T method. T method. T method. T Nigerian Meteorological Agency (NIMET) Abuja. Daily kinetic energy Nigerian Meteorological Agency (NIMET) Abuja. Daily kinetic energy Nigerian Meteorological Agency (NIMET) Abuja. Daily kinetic energy Nigerian Meteorological Agency (NIMET) Abuja. Daily kinetic energy = 1.03V = 1.03V = 1.03V = 1.03Vd d d d 1.51 1.51 1.51 1.51. The results showed that the average annual rainfall erosivity index for the city for the period of study. The results showed that the average annual rainfall erosivity index for the city for the period of study. The results showed that the average annual rainfall erosivity index for the city for the period of study. The results showed that the average annual rainfall erosivity index for the city for the period of study was 1131.86 MJmm/hr. The correlation between annual erosivity index and average annual precipitation was 1131.86 MJmm/hr. The correlation between annual erosivity index and average annual precipitation was 1131.86 MJmm/hr. The correlation between annual erosivity index and average annual precipitation was 1131.86 MJmm/hr. The correlation between annual erosivity index and average annual precipitation expressed as

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M.I. Aho

Rainfall intensity-duration-frequency models for Lokoja Metropolis, Nigeria

Evaluation of Rainfall Erosivity Index for Abuja, Nigeria Using Lombardi Method

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