Turbulent Jet Approach to Predict Expansion Head Loss at Submerged Outlets

Habibzadeh Alireza; Rajaratnam Nallamuthu

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Turbulent Jet Approach to Predict Expansion Head Loss at Submerged Outlets

机译：湍流射流法预测淹没出口的膨胀压头损失

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As the flow expands at expansions, generation of turbulence by shear layers results in the dissipation of energy of the mean flow. Based on simplified momentum equations, this head loss was previously estimated to be comparable to the velocity head of the incoming flow. In this paper, an approach based on turbulent jet theories is used to more accurately evaluate head loss at outlets. This approach is based on the similarity between the generation of a shear layer at an outlet to that of a turbulent jet at its origin. A general equation is derived for the variation of the kinetic energy of the flow from outlets of any geometry and the corresponding head loss coefficient. The equation is simplified for rectangular outlets, which are more common in practice.

机译：随着流动在膨胀处膨胀，剪切层产生的湍流导致平均流动能量的耗散。根据简化的动量方程式，该水头损失先前估计为可与流入水流的速度水头相当。在本文中，基于湍流射流理论的方法用于更准确地评估出口处的水头损失。该方法基于出口处的剪切层的生成与其起源处的湍流射流之间的相似性。对于来自任何几何形状的出口的流的动能的变化以及相应的压头损失系数，导出了一个通用方程。矩形出口简化了该方程式，在实际中更常见。

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来源
《Journal of Hydraulic Engineering》 |2016年第10期|06016011.1-06016011.7|共7页
作者
Habibzadeh Alireza; Rajaratnam Nallamuthu;
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作者单位

Univ Alberta, Dept Civil & Environm Engn, Edmonton, AB T6G 1H9, Canada;

Univ Alberta, Dept Civil & Environm Engn, Edmonton, AB T6G 1H9, Canada;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Culverts; Expansion; Head loss coefficient; Outlets; Shear layer; Turbulent jet;

机译：涵洞;膨胀;水头损失系数;出口;剪切层;湍流;

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机译：对“使用模态网格划分方法对单入口/双出口圆柱形膨胀室消声器的传输损耗预测”的评论（Appl。Acoust。Volume 69（2007）pp。173-178）
3. 'Transmission loss prediction on a single-inlet/double-outlet cylindrical expansion-chamber muffler' by using the modal meshing approach' by C.J. Wu, X.J. Wang and H.B. Tang (Appl. Acoust. Volume 69 (2007) pp. 173-178) [J] . F.D. Denia, A. Selamet Applied Acoustics . 2008,第3期

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4. Application of Flamelet Generated Manifolds Approach with Heat Loss Inclusion to a Turbulent High-Pressure Premixed Confined Jet Flame [C] . A. Donini, S. M. Martin, R. J. M. Bastiaans, ERCOFTAC Workshop on Direct and Large-Eddy Simulation . 2015

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Turbulent Jet Approach to Predict Expansion Head Loss at Submerged Outlets

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