Title : ( New approach to computing mean velocity and discharge )
Authors: amirfarbod abdolvandi , Ali Naghi Ziaei , Tommaso Moramarco , Vijay P. Singh ,Access to full-text not allowed by authors
Abstract
Estimation of discharge hydrograph may be needed at river gauging stations where discharge is computed by converting water stage using a stage-discharge relation (a rating curve) or multiplying mean velocity by flow cross-sectional area. The mean velocity is computed by converting the measured maximum velocity to mean velocity using a conversion factor. Estimating the velocity conversion factor at stations where measured discharge data are insufficient remains a challenge. This study develops a novel method for determining the conversion factor by combining the entropy velocity profile, a data-driven technique, and a one-dimensional (1-D) flood routing model, and thus develops a method to determine discharge at the weak gauging sites. The method was used with two different assumptions: constant velocity factor and velocity factor depending on the aspect ratio. Results showed that this method optimally estimated the conversion factor.
Keywords
entropy velocity profile; roughness; width to water depth ratio; mean velocity; water discharge@article{paperid:1083506,
author = {Abdolvandi, Amirfarbod and Ziaei, Ali Naghi and Tommaso Moramarco and Vijay P. Singh},
title = {New approach to computing mean velocity and discharge},
journal = {Hydrological Sciences Journal},
year = {2021},
volume = {66},
number = {2},
month = {January},
issn = {0262-6667},
pages = {347--353},
numpages = {6},
keywords = {entropy velocity profile; roughness; width to water depth ratio; mean velocity; water discharge},
}
%0 Journal Article
%T New approach to computing mean velocity and discharge
%A Abdolvandi, Amirfarbod
%A Ziaei, Ali Naghi
%A Tommaso Moramarco
%A Vijay P. Singh
%J Hydrological Sciences Journal
%@ 0262-6667
%D 2021