完全和部分发展入流条件下液压跃变中的空气-水流动特性

IF 1.8 3区工程技术 Q3 ENGINEERING, MECHANICAL

Journal of Fluids Engineering-Transactions of the Asme Pub Date : 2021-10-01 DOI:10.1115/1.4051199

L. Montano, S. Felder

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引用次数: 9

摘要

在完全加气的水力跳跃条件下，在部分和完全发展的超临界流入条件下进行了新型的空气-水流量测量。无论入流条件如何，水力跳变都类似于典型的流型，具有强通气和不稳定性，尽管在充分发展的入流条件下，水力跳变具有更多向上定向的滚轮运动，并且在滚轮的后半部分具有更大的清澈水芯。在充分发展的入流条件下，液压跃变在跃变滚轮的前半段具有较大的空隙分数和较大的气泡计数率，而相对较多的小气泡尺寸则表明气泡破碎更强。这与跳跃滚轮前半部分的界面速度和湍流强度略大的情况是一致的，并且流入条件完全发达。对空气-水流动特性所需采样时间的评估表明，需要的采样时间至少比以前的研究长五倍。这些结果强调了需要仔细考虑入流条件和充气液压跳井的采样参数。

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Air-Water Flow Properties in Hydraulic Jumps With Fully and Partially Developed Inflow Conditions

Novel air–water flow measurements were conducted in fully aerated hydraulic jumps with partially and fully developed supercritical inflow conditions. Irrespective of the inflow conditions, the hydraulic jumps resembled typical flow patterns with strong aeration and instabilities, albeit hydraulic jumps with fully developed inflow conditions had a more upward directed roller motion and a larger clear water core in the second half of the roller. Hydraulic jumps with fully developed inflow conditions had comparatively larger void fractions in the first half of the jump roller and larger bubble count rates throughout, while a comparatively larger number of smaller bubble sizes suggested a stronger break-up of bubbles. This was consistent with slightly larger interfacial velocities and turbulence intensities in the first half of the jump roller with fully developed inflow conditions. An assessment of the required sampling duration for air–water flow properties indicated the requirement to sample for at least five times longer than applied in previous studies. These results highlighted the need to carefully consider the inflow conditions and sampling parameters for aerated hydraulic jumps.

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来源期刊

Journal of Fluids Engineering-Transactions of the Asme 工程技术-工程：机械

CiteScore

4.60

自引率

10.00%

发文量

165

审稿时长

5.0 months

期刊介绍： Multiphase flows; Pumps; Aerodynamics; Boundary layers; Bubbly flows; Cavitation; Compressible flows; Convective heat/mass transfer as it is affected by fluid flow; Duct and pipe flows; Free shear layers; Flows in biological systems; Fluid-structure interaction; Fluid transients and wave motion; Jets; Naval hydrodynamics; Sprays; Stability and transition; Turbulence wakes microfluidics and other fundamental/applied fluid mechanical phenomena and processes