Visualization of airflows in push-pull ventilation systems applied to surface treatment tanks.

AIHA journal : a journal for the science of occupational and environmental health and safety Pub Date : 2003-07-01 DOI:10.1202/416.1

F Marzal, E González, A Miñana, A Baeza

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Abstract

A pilot installation was designed that simulates a surface treatment tank fitted with a push-pull ventilation system. The installation contained elements for measuring and controlling the operational variables (flow rate and tank temperature) and smoke generating equipment for injecting smoke through the holes of the push unit and from the tank surface. Visual observation and video recording of the flows involved meant it was possible to follow the qualitative behavior of the push flow rate along the tank surface and to identify any emissions not captured by the exhaust system. It was possible to differentiate the initial semifree push curtain, its impact with the tank surface, the wall jet that moved toward the exhaust, and its entrance into the exhaust. The methodology proposed is complemented by a quantitative technique for measuring the efficiency, using sulfur hexafluoride as tracer, which permits the causes and location of losses in the ventilation system to be determined.

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应用于表面处理槽的推拉式通风系统的气流可视化。

设计了一个试验装置，模拟了一个装有推拉式通风系统的表面处理罐。该装置包含测量和控制操作变量(流量和油箱温度)的元件，以及通过推进装置的孔和从油箱表面喷射烟雾的发烟设备。所涉及的流动的视觉观察和视频记录意味着可以跟踪沿油箱表面推进流量的定性行为，并识别排气系统未捕获的任何排放。可以区分最初的半自由推帘，它对油箱表面的影响，向排气口移动的壁面射流，以及它进入排气口的入口。采用六氟化硫作为示踪剂，补充了测量效率的定量技术，从而可以确定通风系统中损失的原因和位置。

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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AIHA journal : a journal for the science of occupational and environmental health and safety

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