Visibility Through Fire Smoke (I)

Abstract

A smoke chamber is designed to perform the measurement of visibility through fire smoke (see Fig. 3). The chamber is provided with an illumination apparatus and two kinds of sign. One of the signs is the placard and the other is the lighted sign which is backlighted with a projector. The brightness of the lighted sign can be controlled freely, and that of the placard can be set in four stages. Nearly white smoke is generated by heating filtter-paper in an electric furnace. Experiments were performed to get the relation among the brightness of sign, the visual distance, and the extinction coefficient of smoke in the instant of obscuration threshold. In this case the distances the between observer and the object were 5.5m, 10.5m, and 15.5m. The extinction coefficient (σ) in the instant of obscuration threshold may be theoretically given by FORMULA OMMITED where V ; Visual distance BE0 ; Brightness of sign δC ; Threshold of brightness-contrast (δC≒0.01 under the condition of general illumination) L ; Intensity of external light (Illumination) k = σs/σ (Ratio depending on the nature of smoke, k≒1 for nearly white smoke) σs ; Mean light-scattering coefficient From Eq. (1), the extinction coefficient in the instant of obscuration threshold is logarithmically proportional to the brightness of sign for a given smoke (nearly white smoke), a given intensity of external light, and a given visual distance. If the dimensionless brightness (BE0/L) is constant, the relation between σ and V is given by σ • V ≒ const. The results of experiment are shown in Fig.4~Fig.12 The agreement between the results and the theoretical values calculated from Eq. (1) concerning the brightness of sign is good as shown in Fig. 11. The visibility of the placard is about (2~4)/σ and that of the lighted sign is about (5~10)/σ. In the case of escape through real fire smoke, the visibility should be lower than that of experiment, because the effects of physiology and psychology must be considered. © 1970, Japan Association for Fire Science and Engineering. All rights reserved.