Loading…

Laboratory investigation of the Discharge Coefficient of flow in arced labyrinth weirs with triangular plans

Weirs play a decisive role in the safety of dams. There are different types of weirs including labyrinth, linear, arced, piano key, etc. Arced weir is an arc of a circle which makes possible an increase in the effective length of the weir crest at a specific width, and thus enabling a greater discha...

Full description

Saved in:
Bibliographic Details
Published in:Flow measurement and instrumentation 2018-12, Vol.64, p.64-70
Main Authors: Monjezi, Reza, Heidarnejad, Mohammad, Masjedi, Alireza, Purmohammadi, Mohammad Hosein, Kamanbedast, Amirabbas
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Weirs play a decisive role in the safety of dams. There are different types of weirs including labyrinth, linear, arced, piano key, etc. Arced weir is an arc of a circle which makes possible an increase in the effective length of the weir crest at a specific width, and thus enabling a greater discharge to pass through the weir for a specific hydraulic load. This study attempted to investigate the Discharge Coefficient and the discharge which passes through direct and arced weirs in linear and triangular labyrinth modes in the laboratory. The Discharge Coefficient of these weirs, which is a function of the ratio of the total hydraulic load to the weir crest height (Hd/P), is compared given the effect of the weir shape and their hydraulic performance. The results show that the increased (Hd/P) value leads to a decreased Discharge Coefficient in all weirs. The amount of the aforesaid decrease varies depending on weir type reaching up to 20% and 51% in the linear weir and the labyrinth weir respectively. Moreover, the increased effective length of the weir as a result of its arced shape resulted in improved efficiency of linear arced weirs and labyrinth arced weirs up to 21% and 57% respectively. With hydraulic load increasing, the height of standing wave at the downstream of arced weirs increased leading to a decreased efficiency of arced weirs. •In light of the remarkable advantages of arced labyrinth weirs and given that research in this field is in its early stages and since arced weirs are of interest as an option for increasing weir length, this research investigates the effect of the arced shape of the weir and the hydraulic load of the upstream on its hydraulic performance and the Discharge Coefficient of arced weirs within the channel.•Moreover, the increased effective length of the weir as a result of its arced shape resulted in improved efficiency of linear arced weirs and labyrinth arced weirs up to 21% and 57% respectively.•With hydraulic load increasing, the height of standing wave at the downstream of arced weirs increased leading to a decreased efficiency of arced weirs.
ISSN:0955-5986
1873-6998
DOI:10.1016/j.flowmeasinst.2018.10.011