Experimental investigation of 90° intake flow patterns with and without submerged vanes under sediment feeding conditions

Bor, Aslı

doi:10.1139/cjce-2020-0616

Cited by 4 publications

(1 citation statement)

References 29 publications

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“…To reduce uncertainty in the results, the experimental program was repeated three times for each of the four models. (Bor, 2022). The scattered values for the collected velocity component data were cleaned using the phase-space threshold (PST) filter algorithm.…”

Section: Experiments Parametersmentioning

confidence: 99%

Investigation of Improved Energy Dissipation in Stepped Spillways Applyinga Bubble Image Velocimetry

Mikalsen,

Thorsen,

TÜRKBEN

et al. 2024

Preprint

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This study focuses on the skimming flow regime, two-phase air-water flow conditions, and simple measures for improving energy dissipation, and aims to optimize the design, operation, and modeling of stepped spillways. The experiments were carried out at the Norwegian Hydraulic Laboratory at the Norwegian University of Science and Technology in Trondheim. Velocity field measurements were made in two physical models of different scales, conducted in two different rectangular flumes. For the first scenario, a 1:50 scale spillway model was used, and for the second, a larger model, 1:17 scale was built with planks and marine plywood with a crest of extruded polystyrene (XPS). Crest splitters were installed to further increase energy dissipation, and the hydraulic jump method was applied to measure the residual energy level. Flow properties were investigated the flow properties with the Bubble Image Velocimetry (BIV) technique, which tracks air bubbles. Experimental results show that BIV is remarkably successful for studying turbulent two-phase air-water flow. Additionally, two experiments were carried out with and without splitters on the ogee crest with ADV, revealing how the splitters changed the velocity profile above the crest. The study found crest splitters to be a practical and cost-effective measure to improve energy dissipation, in addition to reducing the length of inception and cavitation potential.

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Section: Experiments Parametersmentioning

confidence: 99%

Investigation of Improved Energy Dissipation in Stepped Spillways Applyinga Bubble Image Velocimetry

Mikalsen,

Thorsen,

TÜRKBEN

et al. 2024

Preprint

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Analysis of flow past a submerged vane using computational fluid dynamics

Annayat,

Raja,

Barbhuiya

et al. 2024

Int J Energ Water Res

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Sediment control and flow redistribution with submerged vanes: a review

Mandal,

Gautam,

Ahmad

2024

Water Practice &Amp; Technology

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The most challenging issues in rivers include sediment management, outer bank erosion, intake choking, channel bed shoaling, and river meandering. This paper provides a concise review of the newly developed sediment and flow control technique known as the Iowa vane or submerged vane. Submerged vanes are small flow training structures designed to redistribute flow and sediment within the channel cross-section. The structural stability and economic feasibility of submerged vanes, which distinguish them from conventional methods such as dikes and groins, have inspired many researchers to study their use and efficiency in river management over many decades. Various hydrodynamic characteristics, such as flow structure, sediment motion, vortex generation, and scouring around submerged vanes and arrays of vanes, have been reviewed. Additionally, various vane parameters that influence these characteristics are also explained. This paper also underscores current limitations in understanding the flow and sediment behavior around submerged vanes, while also providing recommendations for future research in the field.

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Experimental investigation of 90° intake flow patterns with and without submerged vanes under sediment feeding conditions

Cited by 4 publications

References 29 publications

Investigation of Improved Energy Dissipation in Stepped Spillways Applyinga Bubble Image Velocimetry

Investigation of Improved Energy Dissipation in Stepped Spillways Applyinga Bubble Image Velocimetry

Analysis of flow past a submerged vane using computational fluid dynamics

Sediment control and flow redistribution with submerged vanes: a review

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