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Journal Article
Statistical Characteristics of Scattering Ratio Based on Three Optical Wavelengths for Smoke Particles
- Authors
- Kyuwon Han, Soocheol Kim, Hoesung Yang, Kwang Soo Cho, Kangbok Lee, Ho-Sik Han
- Issue Date
- 2022-06
- Citation
- International Journal of Fire Science and Engineering, v.36, no.2, pp.40-49
- ISSN
- 2950-8991
- Publisher
- 한국화재소방학회
- Language
- English
- Type
- Journal Article
- Abstract
- Photoelectric smoke detectors, which operate by reacting to the scattering of light caused by particles entering the light path, are widely used and extremely sensitive. Owing to higher standards imposed by Underwriters Laboratories, researchers have begun analyzing the properties of smoke particles. In particular, several wavelengths are used to classify particles by their scattering reactivity. The performances of actual smoke detectors are limited by their hardware and price. Therefore, properties that can distinguish particle types in these limited conditions must be determined. In addition, algorithms for extracting valid data intervals from unstable scattering data must be developed. In this study, scattering intensity ratios for three wavelengths are derived via simulations of light scattering by particles. An upper cumulative sum is defined for the three wavelengths, and an index for the start of particle inflow is extracted. In addition, valid intervals are extracted based on the scattering intensity ratios and the moving variance of adjacent wavelengths, and the properties of each particle are defined using the extracted indexes. For verification, a data acquisition device that can obtain data using the three selected wavelengths (470, 525, and 850 nm) from two sensors is designed. Five types of fire sources and non-fire alarm sources are selected and used in a test chamber designed to generate particle data. After applying the algorithm, the data in the valid data intervals can be used to derive a sample mean scattering intensity ratio that is more constant than that of the overall data or the data processed using the CUSUM index. In addition, the fire sources have a higher sample mean scattering intensity ratio than water vapor, which is a non-fire alarm source. The scattering intensity ratios for smoke particles can be extracted in real time via a comparison with experimental results obtained from the selected sensors.
- KSP Keywords
- 850 nm, Data Acquisition(DAQ), Intensity ratio, Particle data, Real-time, Sample mean, Scattering of light, Smoke particles, Statistical characteristics, Test chamber, Water vapor
This work is distributed under the term of Creative Commons License (CCL)
(CC BY NC)
(CC BY NC)
