Experimental and Numerical Study of Open Channel Flow with T-Section Artificial Bed Roughness

Majeed, Hayder Q.; Ghazal, Ali M.; Al-Hadeethi, Basheer

doi:10.18280/mmep.090619

Cited by 1 publication

(1 citation statement)

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“…The numerical model becomes indispensable for designing a huge hydraulic structure such as dams. Numerical methods can solve the complex flow pattern problems in saved time consumption and saved cost when compared with measured or experimental work [13,14]. Almawla et al [15] studied the strains behavior on Haditha Dam's spillway by developing a model depending on ANN techniques and they showed that it can be used for accurate evaluating of the strain on the spillway.…”

Section: Introductionmentioning

confidence: 99%

Numerical Modeling of Flow Pattern with Different Spillway Locations

Al-Hadeethi,

Almawla,

Kamel

et al. 2024

MMEP

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A spillway is a significant structure that releases the exceeded water during extreme flood events. It is considered as a safety valve during dams operating. Spillway location at dam body is one of the most important requirements of dam design. Different locations may influence the flow patterns which lead to change in the hydraulic performance of the spillway. In this paper, a numerical model was presented utilizing the Ansys fluent software using the realizable k-ɛ turbulence model to investigate the flow patterns of Mandali Dam's spillway at different locations. The interaction between air and water phases was simulated by using volume of fluid (VOF) model. Moreover, cavitation damage was studied for different flow discharges values. the validation of the numerical model was executed in compression with the measurement of the physical model. A discharge of 1800 m 3 /s was utilized for validation, while five different discharges; 1800, 1300, 1040, 440, and 67 m 3 /s were employed to investigate the hydraulic properties. The results show an agreement between numerical model and the physical model. According to the hydraulic properties, the spillway location at the center of the dam is better than its location at the edge of the dam. The discharge coefficient value in scenario one was found to be closer to the physical model value compared to the second scenario. At discharge 1800 and 1300, the discharge coefficient was 2.02 and 1.72, while in scenario two it was 1.46 and 1.21 in comparison with physical model which was 2.06 and 1.99. For cavitation investigations, the numerical model shows that the spillway is safe with no cavitation effects for the whole applied discharge values.

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Section: Introductionmentioning

confidence: 99%