Induced aeration flow over stepped spillways: mean pressures, air entrainment and flow behavior

Pub Date : 2021-01-01 DOI:10.1590/2318-0331.262120210098
C. K. Novakoski, Rute Ferla, P. S. Priebe, Aline Saupe Abreu, M. Marques, Maurício Dai Prá, A. V. Canellas, E. D. Teixeira
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引用次数: 1

Abstract

ABSTRACT Stepped spillways can dissipate a great amount of energy during the flow passage over the chute, however these structures have limited operation due to the risk of cavitation damage. The induced aeration may protect the concrete chute through the air concentration near the channel bottom. Furthermore, some research studies have indicated that the presence of air in flows may reduce the mean pressures. The present research aims to analyze mean pressures, air entrainment coefficient and flow behavior over a stepped spillway with aeration induced by two different deflectors, comparing the results to natural aeration flow. Despite the jet impact influence, the induced aeration does not change significantly the mean pressures compared to natural aeration flow. The air entrainment coefficient, as well as the jet impact position, is higher for the deflector with the longer extension and, although air bubbles can be seen throughout the extension of the chute due to the air entrainment through the inferior flow surface, the induced aeration did not anticipate the boundary layer inception point position.
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阶梯式溢洪道上的诱导曝气流量:平均压力、空气夹带和流动特性
阶梯式溢洪道在水流通过溜槽的过程中会耗散大量的能量,但由于存在空化破坏的风险,这些结构的运行受到限制。诱导曝气可以通过通道底部附近的空气浓度来保护混凝土溜槽。此外,一些研究表明,气流中空气的存在可能会降低平均压力。本研究旨在分析两种不同导流板加气时梯级溢洪道的平均压力、夹带系数和流动特性,并将结果与自然加气流动进行比较。尽管有射流冲击的影响,但与自然曝气相比,诱导曝气对平均压力的影响并不显著。导流板延伸越长,其夹带系数越高,射流冲击位置也越高,虽然由于气流通过下流面夹带,在整个滑槽延伸过程中可以看到气泡,但诱导曝气并没有预料到边界层起始点的位置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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