矩形储罐中的水混合:小规模与现场试验

IF 1.7 3区工程技术 Q3 ENGINEERING, CIVIL

Journal of Hydraulic Research Pub Date : 2023-03-04 DOI:10.1080/00221686.2022.2161960

Alexandre Da Silva Pinheiro, L. Monteiro, Maria Do Céu De Sousa Teixeira De Almeida, D. Covas

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引用次数: 0

摘要

混合和更新过程对于保持储罐中足够的饮用水质量至关重要。本文通过在两个小型水箱(带挡板和不带挡板)中进行的室内示踪试验，研究了挡板结构和灌拔循环对矩形截面水箱中水的混合和更新的影响，并与全尺寸试验结果进行了比较。这项研究表明，挡板的使用抑制了水的混合，并使旧的水袋保持在小的再循环区域，尽管挡板比开放的水箱流速更低，可以更快地更新水。在注水和取水循环中，高水量变化(在50%到80%之间)促进了水的更新，与水箱的配置(即横截面和挡板的存在)无关。尽管在全尺寸矩形水箱中有20%的水容量变化的挡板结构，但高流量允许储存的水快速更新。

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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Water mixing in rectangular storage tanks: small-scale versus field tests

ABSTRACT Mixing and renewal processes are crucial for maintaining adequate drinking water quality in storage tanks. This paper studies the influence of baffle structures and of fill-and-draw cycles on water mixing and renewal in rectangular cross-section tanks through laboratory tracer tests carried out in two small-scale tanks (with and without baffles) and compares with results from a full-scale test. This study shows that the use of baffles inhibits water mixing and keeps older water pockets in small recirculation zones, though baffles allow faster water renewal than in open tanks for lower flow rates. High water volume variation in fill-and-draw cycles (between 50% to 80%) promotes water renewal, independently of the tank configuration (i.e. cross-section and the existence of baffles). Despite the existing baffle structure in the full-scale rectangular tank with 20% water volume variation, the high flow rates allowed a rapid renewal of the stored water.

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来源期刊

Journal of Hydraulic Research 工程技术-工程：土木

CiteScore

4.90

自引率

4.30%

发文量

审稿时长

6.6 months

期刊介绍： The Journal of Hydraulic Research (JHR) is the flagship journal of the International Association for Hydro-Environment Engineering and Research (IAHR). It publishes research papers in theoretical, experimental and computational hydraulics and fluid mechanics, particularly relating to rivers, lakes, estuaries, coasts, constructed waterways, and some internal flows such as pipe flows. To reflect current tendencies in water research, outcomes of interdisciplinary hydro-environment studies with a strong fluid mechanical component are especially invited. Although the preference is given to the fundamental issues, the papers focusing on important unconventional or emerging applications of broad interest are also welcome.