experimental and numerical investigation of the flow field in the gradual transition of rectangular to trapezoidal open channels

experimental and numerical investigation of the flow field in the gradual transition of rectangular to trapezoidal open channels

;Adel Asnaashari;Ali Akbar Akhtari;Amir Ahmad Dehghani;Hossein Bonakdari
Pediatric Radiology 2016 Vol. 10 pp. 272-282
212
asnaashari2016engineeringexperimental

Abstract

Transitions are structures that can change geometry and flow velocity through varying the cross-sections of their channels. Under subcritical flow and steady flow conditions, it is necessary to reduce the flow velocity gradually due to increasing water pressure and adverse pressure gradients. Due to the separation of flow and subsequent eddy formation, a significant energy loss is incurred along the transition. This study presents the results of experimental investigations of the subcritical flow along the expansive transition of rectangular to trapezoidal channels. A numerical simulation was developed using a finite volume of fluid (VOF) method with a Reynolds stress turbulence model. Water surface profiles and velocity distributions of flow through the transition were measured experimentally and compared with the numerical results. A good agreement between the experimental and numerical model results showed that the Reynolds model and VOF method are capable of simulating the hydraulic flow in open channel transitions. Also, the efficiency of the transition and coefficient of energy head loss were calculated. The results show that with an increasing upstream Froude number, the efficiency of the transition and coefficient of energy head loss decrease and increase, respectively. The results also show the ability of numerical simulation to simulate the flow separation zones and secondary current along the transition for different inlet discharges.

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0x95644003c57E6F55A65596E3D9Eac6813e3566dA
Article ID:
132358
Unique Identifier:
10.1080/19942060.2016.1149102
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Scimatic Chain (ID: 481)
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