Parametric study of flow at circular piano-key inlets over the vertical shaft spillways

Swirling flow at vertical shaft spillways results in flow fluctuations, reduces hydraulic system efficiency, and causes structural damage. Optimizing the shape of the inlet is a practical means to decrease the swirling flow strength. In the present study a comprehensive experimental investigation wa...

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Bibliographic Details
Published inJournal of hydraulic research Vol. 62; no. 2; pp. 125 - 143
Main Authors Mirhoseini, Seyed-Ali, Kabiri-Samani, Abdorreza, Keihanpour, Maedeh, Izadinia, Elham
Format Journal Article
LanguageEnglish
Published Madrid Taylor & Francis 03.03.2024
Taylor & Francis Ltd
Subjects
CPK inlet
critical submergence depth
Depth
Discharge coefficient
Fluid flow
Hydraulic equipment
Hydraulic systems
Inlets
Inlets (waterways)
Orifices
Outlets
Pianos
shaft spillway
Spillways
Submergence
Swirling
swirling flow
Water flow
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Summary:Swirling flow at vertical shaft spillways results in flow fluctuations, reduces hydraulic system efficiency, and causes structural damage. Optimizing the shape of the inlet is a practical means to decrease the swirling flow strength. In the present study a comprehensive experimental investigation was performed to examine the effects of a new type of inlet over vertical shaft spillways, namely the circular piano-key (CPK) inlet, for free, orifice and full-pipe or black water flow regimes. Head-discharge relationships, threshold and critical submergence depths and the effects of different geometrical parameters of the CPK inlets on the spillway flow discharge coefficient were assessed. Results reveal that increases in the height of the inlet and outlet keys increase the released capacity of the shaft spillway. Given its increased total crest length and the effects of the radially placed walls of a CPK against the swirling flow, angles of the inlet and outlet keys of the CPK are found to significantly affect the spillway flow discharge. The effect of inlet and outlet overhangs on the efficiency of CPK inlets is not noteworthy, being negligible. Considering the destructive effects of swirling flow, the CPK inlets significantly decrease the range of submergence for an unfavourable swirling flow regime condition, increasing the threshold submergence depth and decreasing the critical submergence depth. The flow discharge through the CPK inlets is higher than those of the other circular-type spillways. The present modified CPK inlets more effectively divert water, serving as an economical alternative to the conventional circular spillways.
ISSN:0022-1686
1814-2079
DOI:10.1080/00221686.2024.2315935