Verification of Baffle Factor for Straight Pipe Flow

Q4 Environmental Science

Archives of Hydroengineering and Environmental Mechanics Pub Date : 2018-06-01 DOI:10.1515/heem-2018-0003

W. Artichowicz, A. Łuczkiewicz, J. Sawicki

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Abstract

Abstract The baffle factor is a parameter widely used to describe flow system characteristics. This indicator is very important in designing disinfection devices. For example, it is used to convert the plug flow time to the actual fluid residence time in the flow system of interest. Its accurate determination is a complex problem requiring tracer experiments or computational fluid dynamics simulations. Therefore, in practice, it is often taken from tables provided in the literature. The literature sources, however, state that the baffle factor for a flow in a straight pipe is equal to unity, which implies the identity between the pipe flow model and the plug flow model. This assumption is doubtful. The aim of the present work is to verify the baffle factor values assumed for the pipe flow. The merit of this study is the analytical derivation of the expression describing the baffle factor value with respect to flow characteristics. To this purpose, the analytical solution of a one-dimensional advection-diffusion equation with a Heaviside initial condition was used. It was demonstrated that the aforementioned assumption is wrong, as the baffle factor for a straight pipe is significantly less than unity.

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直管流折流系数的验证

摘要挡板系数是一个广泛用于描述流动系统特性的参数。该指标在消毒设备的设计中非常重要。例如，它用于将塞子流动时间转换为感兴趣的流动系统中的实际流体停留时间。它的精确测定是一个复杂的问题，需要示踪剂实验或计算流体动力学模拟。因此，在实践中，它通常取自文献中提供的表格。然而，文献资料表明，直管中流动的挡板系数等于1，这意味着管道流动模型和塞流模型之间的一致性。这一假设令人怀疑。本工作的目的是验证管道流量假设的挡板因子值。这项研究的优点是对描述挡板因子值相对于流动特性的表达式进行了分析推导。为此，使用了具有Heaviside初始条件的一维平流-扩散方程的解析解。事实证明，上述假设是错误的，因为直管的挡板系数明显小于1。

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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来源期刊

Archives of Hydroengineering and Environmental Mechanics Environmental Science-Water Science and Technology

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Archives of Hydro-Engineering and Environmental Mechanics cover the broad area of disciplines related to hydro-engineering, including: hydrodynamics and hydraulics of inlands and sea waters, hydrology, hydroelasticity, ground-water hydraulics, water contamination, coastal engineering, geotechnical engineering, geomechanics, structural mechanics, etc. The main objective of Archives of Hydro-Engineering and Environmental Mechanics is to provide an up-to-date reference to the engineers and scientists engaged in the applications of mechanics to the analysis of various phenomena appearing in the natural environment.