@article {
author = {Choo, T.H. and Maeng, S.J. and Yoon, H.C. and Kim, D.M. and Kim, S.C.},
title = {A Study on the Derivation of a Mean Velocity Formula from Chiu’s Velocity
Formula and Bottom Shear Stress},
journal = {International Journal of Environmental Research},
volume = {6},
number = {2},
pages = {537-546},
year = {2012},
publisher = {University of Tehran/Springer},
issn = {1735-6865},
eissn = {2008-2304},
doi = {10.22059/ijer.2012.523},
abstract = {This study proposed a new discharge estimation method using a mean velocity formula derived from Chiu’s 2D velocity formula of probabilistic entropy concept and the river bed shear stress of channel. In particular, we could calculate the mean velocity, which is hardly measurable in flooding natural rivers, in consideration of several factors reflecting basic hydraulic characteristics such as river bed slope, wetted perimeter, width, and water level that are easily obtainable from rivers. In order to test the proposed method, we used highly reliable flow rate data measured in the field and published in SCI theses, estimated entropy M from the results of the mean velocity formula and, at the same time, calculated the maximum velocity. In particular, we obtained φ(M ) expressing the overall equilibrium state of river through regression analysis between the maximum velocity and the mean velocity, and estimated the flow rate from the newly proposed mean velocity formula. The relation between estimated and measured discharge was analyzed through the discrepancy ratio, and the result showed that the estimate value was quite close to the measured data.},
keywords = {Hydraulic characteristics,Mean velocity formula,F(M) Equation,Entropy parameter M,Equilibrium state φ(M )},
url = {https://ijer.ut.ac.ir/article_523.html},
eprint = {https://ijer.ut.ac.ir/article_523_b9bb8742ca19d7b3bea6d114c6a60a35.pdf}
}