Evaluation of Critical Sink Surface in Vertical Intake Branched out from Reservoir

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AZIMI B.; LASHKAR ARA B.; NAJAFI L.; ZAKERMOSHFEGH M.

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Journal Paper

Paper Information

Journal: Journal of Irrigation Sciences and Engineering Year:2020 | Volume:43 | Issue:1 Page(s): 73-88

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Title

Evaluation of Critical Sink Surface in Vertical Intake Branched out from Reservoir

Author(s)

AZIMI B. | LASHKAR ARA B. | NAJAFI L. | ZAKERMOSHFEGH M. | Issue Writer Certificate

Keywords

Air CoreQ1

VortexQ1

Dynamic ViscosityQ1

IntakeQ2

Air-entrainmentQ1

Abstract

Intakes are the most significant hydraulic structures, which are also used as inlet structures in outlets to supply water for hydro-electric power, irrigation, and drinking. A major problem for vertical circular spillways is that Vortexes are formed on their inlet with several negative effects: reducing discharge coefficient, excessive head formation on spillway inlet, structure vibration, increasing of cavitation formation probability, suction of floating bodies into conduit, excessive oscillations on flow surface, unsteady flow formation, and increasing energy losses are the major consequences. Vortex flows result from flow direction variation, viscosity and surface tension. The flow type causes negative effects in operation of structures such as vertical circular spillway (Kabiri Samani and Borghei, 2001). Taş tan and Yildirim (2010) indicated that critical submerged depth for Intake in canal with uniform flow equals radius of spherical sink surface, which was finally named critical spherical sink surface. Rankine (1858) represented a model of Vortex, namely Rankine compound Vortex. In this model, it is assumed fluid particles, which are in the vicinity of Vortex center, are solid bodies with high viscosity and rotational motion around their axes (Forced Vortex). The area is located inside nonviscous zone at a distance from Vortex center. This research investigates geometric and hydraulic properties of critical sink surface by simulating flow in the environs of vertical Intake inlet.

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APA: Copy

AZIMI, B., LASHKAR ARA, B., NAJAFI, L., & ZAKERMOSHFEGH, M.. (2020). Evaluation of Critical Sink Surface in Vertical Intake Branched out from Reservoir. IRRIGATION SCIENCES AND ENGINEERING (JISE) (SCIENTIFIC JOURNAL OF AGRICULTURE), 43(1 ), 73-88. SID. https://sid.ir/paper/369770/en

Vancouver: Copy

AZIMI B., LASHKAR ARA B., NAJAFI L., ZAKERMOSHFEGH M.. Evaluation of Critical Sink Surface in Vertical Intake Branched out from Reservoir. IRRIGATION SCIENCES AND ENGINEERING (JISE) (SCIENTIFIC JOURNAL OF AGRICULTURE)[Internet]. 2020;43(1 ):73-88. Available from: https://sid.ir/paper/369770/en

IEEE: Copy

B. AZIMI, B. LASHKAR ARA, L. NAJAFI, and M. ZAKERMOSHFEGH, “Evaluation of Critical Sink Surface in Vertical Intake Branched out from Reservoir,” IRRIGATION SCIENCES AND ENGINEERING (JISE) (SCIENTIFIC JOURNAL OF AGRICULTURE), vol. 43, no. 1 , pp. 73–88, 2020, [Online]. Available: https://sid.ir/paper/369770/en

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