Visibility analysis by light attenuation ratio recorded with portable camera at the full-scale hot smoke test site

IF 1.1 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

International Journal of Ventilation Pub Date : 2022-07-24 DOI:10.1080/14733315.2022.2103230

C. Su, ChiaYuan Shih, ShiuanCheng Wang, Ming E. Tsai

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引用次数: 0

Abstract

Abstract Some countries have enacted the full-scale hot smoke test standards to verify the effectiveness of smoke extraction systems. Unfortunately, the judgment of most performed tests is based on vision and lacks scientific value. It is important to establish a scientific and quantifiable measurement system for visibility judgment in a large space. This paper analyzed the visibility values obtained through the light attenuation in a full-scale hot smoke test site. The quadratic regression relationships between the gray scale values and the attenuation ratios were derived. The visibility of the test site can be also obtained by grayscale analysis of recorded images. A qualified emergency direction light was used as a light source, and a closed-circuit television and a portable camera were adopted for image recording. These images were converted into grayscale pictures to obtain the gray scale values at the center of the bright spot. By comparing with the light attenuation ratio of the quantifiable measurement equipment in front of the light source, the results showed excellent relevance and demonstrated the applicability of the captured images.

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在全尺寸热烟试验场用便携式相机记录光衰减比分析能见度

为了验证排烟系统的有效性，一些国家制定了全尺寸热烟测试标准。不幸的是，大多数测试的判断都是基于视觉，缺乏科学价值。建立科学的、可量化的大空间可见性判断测量体系十分重要。本文分析了在全尺寸热烟试验场通过光衰减得到的能见度值。导出了灰度值与衰减比之间的二次回归关系。通过对记录图像进行灰度分析，还可以获得试验场的可见性。采用合格的应急方向灯作为光源，采用闭路电视和便携式摄像机进行图像记录。将这些图像转换成灰度图像，得到亮点中心的灰度值。通过与光源前可量化测量设备的光衰减比进行对比，结果具有很好的相关性，证明了所采集图像的适用性。

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

International Journal of Ventilation CONSTRUCTION & BUILDING TECHNOLOGY-ENERGY & FUELS

CiteScore

3.50

自引率

6.70%

发文量

审稿时长

>12 weeks

期刊介绍： This is a peer reviewed journal aimed at providing the latest information on research and application. Topics include: • New ideas concerned with the development or application of ventilation; • Validated case studies demonstrating the performance of ventilation strategies; • Information on needs and solutions for specific building types including: offices, dwellings, schools, hospitals, parking garages, urban buildings and recreational buildings etc; • Developments in numerical methods; • Measurement techniques; • Related issues in which the impact of ventilation plays an important role (e.g. the interaction of ventilation with air quality, health and comfort); • Energy issues related to ventilation (e.g. low energy systems, ventilation heating and cooling loss); • Driving forces (weather data, fan performance etc).