Discharge distribution in a multi-outlet spillway with varying adverse conditions

Discharge distribution in a multi-outlet spillway with varying adverse conditions

Abstract Hydropower and dam structures worldwide are facing evolving requirements due to changes in climate, better methods for flood estimates, combined with the needs of surrounding interests. Improved understanding of the hydraulic behavior of spillways, and the approach flow leading up to them,...

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Bibliographic Details
Main Authors: Nils Solheim, Mikael P. A. Hedberg, Gunnar I. J. Hellström, Leif Lia, Anders G. Andersson, Patrik Andreasson, Elena Pummer
Format: Article
Language:English
Published: Nature Portfolio 2025-02-01
Series:Scientific Reports
Subjects:
Ogee spillway
Discharge coefficient
Spillway capacity
Acoustic Doppler velocimetry
Oblique approach flow
Online Access:https://doi.org/10.1038/s41598-025-89741-3
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Summary:Abstract Hydropower and dam structures worldwide are facing evolving requirements due to changes in climate, better methods for flood estimates, combined with the needs of surrounding interests. Improved understanding of the hydraulic behavior of spillways, and the approach flow leading up to them, is important for evaluation of existing spillways and considering potential redesigns. There is limited research on the distribution of flow across a multiple outlet spillway, therefore a purpose built experimental setup is utilized to examine the impact of various geometrical changes on the flow distribution across a spillway with three outlets. The maximum difference measured between the different outlets were as much as 10%. While small changes to abutment and pier corners were found to reduce total discharge capacity up to 8%, with increased discharge and overflow height causing greater reduction in the capacity of the spillway. To further investigate the flow behavior leading up to the spillway outlets, ADV measurements were conducted to capture flow velocities. The measured flow cross sections indicate a stable flow field leading away from the inlet, stagnation zones and recirculation zones leading up to the spillway, with minor variations occurring for increasing inlet flow rates.
ISSN:2045-2322

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