Research Article
Modeling the Transport of Enteric Virus Pressured by Variation of Velocity in Heterogeneous Coarse Deposition in Coastal Environment
Nwaoburu AO1 and Eluozo SN2*
1Department of Mathematics, Faculty of Science, Rivers State University, Nigeria
2Department of Civil, College of Engineering Gregory University, Nigeria
Eluozo SN, Department of Civil College of Engineering Gregory University Uturu Abia State, Nigeria.
Received Date: April 24, 2019; Published Date: May 13, 2019
Abstract
This paper monitored the transport of enteric virus applying non-homogeneous system, other works done was monitoring the system influenced by micronutrient in other predominant stratum, but the study looks at the variation of fluid velocity as a determine factor for the migration rate of enteric virus in coarse formation, such condition explained the rate of fluid flow velocity influence in growth rate of the concentration. The study observed linear trend on the migration rate, but at different conditions expressed in different figures, the concentration experienced variation such that the lowest velocity of flow experienced highest concentration, while the highest velocity of flow experienced the lowest concentration, this implies that the developed model express the influenced from variation of velocity refection on enteric virus in heterogeneous coarse deposition. The study is imperative because the previous study monitored the system on the migration rates based on the deposition of microelement that normally increase its population, but present study observed the effect from velocity variation and its rate of deposition as determination factor for the growth rate of the contaminant in the study environment. This implies that the velocity deposition precisely monitors it observation as it become the determination factor for the depositional variation of enteric virus in coarse depositions.
Keywords: Modeling; Transport enteric virus velocity; Coarse deposition
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Nwaoburu AO, Eluozo SN. Modeling the Transport of Enteric Virus Pressured by Variation of Velocity in Heterogeneous Coarse Deposition in Coastal Environment. Glob J Eng Sci. 2(2): 2019. GJES.MS.ID.000534.
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