Add to ORKGThe flow upstream of a free overfall from smooth inverted semicircular channels is theoretically analysed to compute the end-depth ratio (EDR), applying an energy equation based on the Boussinesq assumption. This approach eliminates the need for an experimentally determined pressure coefficient. Experiments were conducted with horizontal channel conditions. The EDR related to the critical depth, which occurs upstream from the end section, is found to be around 0.695 for a critical depth-diameter ratio up to 0.40. A simple method is presented to estimate the discharge from a known end-depth. The theoretical model corresponds closely with the experimental data
The hydraulic jump is a transitional state from supercritical to subcritical flow. The phenomenon of...
AbstractThe hydraulic jump is a transitional state from supercritical to subcritical flow. The pheno...
AbstractMany devices are fabricated to measure discharge in circular open channel. The flow over a f...
The flow upstream of a free overfall from smooth inverted semicircular channels is theoretically ana...
A free overfall at the end of an open channel provides a simple means for measuring flow discharge. ...
This paper presents a theoretical and experimental study on free overfall in a smooth inverted semic...
This study presents a simplified approach to determine the end depth of a free overfall in horizonta...
A free overfall at the end of an open channel offers a simple means of measuring flow discharge. In ...
A free overfall at the end of the channel is used as a flow measuring device. In this paper, theoret...
A free overfall at the end of the channel is used as a flow measuring device. In this paper, theoret...
Abstract. In this paper, two methods are presented to analyse the free overfall in 1-shaped (equilat...
Experimental observations showed that in a compound channel, the free surface elevation transverse t...
In this paper, two methods are presented to analyse the free overfall in Δ -shaped (equilateral tria...
Free overfall can be used as a discharge measuring structure by a single measurement of end flow dep...
The paper presents the application of artificial neural network (ANN) to determine the end-depth-rat...
The hydraulic jump is a transitional state from supercritical to subcritical flow. The phenomenon of...
AbstractThe hydraulic jump is a transitional state from supercritical to subcritical flow. The pheno...
AbstractMany devices are fabricated to measure discharge in circular open channel. The flow over a f...
The flow upstream of a free overfall from smooth inverted semicircular channels is theoretically ana...
A free overfall at the end of an open channel provides a simple means for measuring flow discharge. ...
This paper presents a theoretical and experimental study on free overfall in a smooth inverted semic...
This study presents a simplified approach to determine the end depth of a free overfall in horizonta...
A free overfall at the end of an open channel offers a simple means of measuring flow discharge. In ...
A free overfall at the end of the channel is used as a flow measuring device. In this paper, theoret...
A free overfall at the end of the channel is used as a flow measuring device. In this paper, theoret...
Abstract. In this paper, two methods are presented to analyse the free overfall in 1-shaped (equilat...
Experimental observations showed that in a compound channel, the free surface elevation transverse t...
In this paper, two methods are presented to analyse the free overfall in Δ -shaped (equilateral tria...
Free overfall can be used as a discharge measuring structure by a single measurement of end flow dep...
The paper presents the application of artificial neural network (ANN) to determine the end-depth-rat...
The hydraulic jump is a transitional state from supercritical to subcritical flow. The phenomenon of...
AbstractThe hydraulic jump is a transitional state from supercritical to subcritical flow. The pheno...
AbstractMany devices are fabricated to measure discharge in circular open channel. The flow over a f...