RT - Journal Article
T1 - Application of the Evolutionary Methods in Determining the Discharge Coefficient of Triangular Labyrinth Weirs
JF - JSTNAR
YR - 2019
JO - JSTNAR
VO - 22
IS - 4
UR - http://jstnar.iut.ac.ir/article-1-3586-en.html
SP - 279
EP - 290
K1 - Triangular Labyrinth Weir
K1 - Support Vector Machine
K1 - Rehbock Equation
K1 - Vortex Angle
AB - A labyrinth weir is a nonlinear weir folded in the plan-view which increases the crest length and the flow rate for a given channel width and an upstream flow depth. Nowadays, a labyrinth weir is an attractive alternative for those weirs that have a problem in passing the probable maximum flood. The three-dimensional flow pattern and unlimited geometric parameters provide a major challenge to the designers of these weirs. The present study aimed at determining discharge coefficients of sharp-crested triangular labyrinth weirs using the support vector machine (SVM). The results were compared with the experimental data. For this purpose, 123 laboratory test data including geometric and hydraulic parameters such as vertex angle (θ), magnification ratio (L/B), head water ratio (h/w), Froude number (Fr), Weber Number (We) and Reynolds number (Re) were used. The results showed that the SVM-based model produced the most accurate results when only three geometric parameters, e.g. (h/w, θ, L/B), were introduced as the input parameters (R2 = 0.974, Root mean square error [RMSE] = 0.0118, mean absolute error [MAE] =0.0112 and mean normal error [MNE] =0.017 for the test stage). Also, for these weirs, polynomials linear and nonlinear regression equations were presented. Finally, the discharge coefficient of sharp-crested triangular labyrinth weirs based on the Rehbock equation was evaluated and compared with the SVM using nonlinear and linear regression methods.
LA eng
UL http://jstnar.iut.ac.ir/article-1-3586-en.html
M3 10.29252/jstnar.22.4.279
ER -