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Yang D, Huo R, Zhang XL, Zhao XY (2011) Applied Thermal Engineering 31(4), 528-536.
Date: 2011-08-16   Author: SKLFS  ,   Source: WOS  ,
 

Yang D, Huo R, Zhang XL, Zhao XY (2011) Comparison of the distribution of carbon monoxide concentration and temperature rise in channel fires: Reduced-scale experiments. Applied Thermal Engineering 31(4), 528-536. [In English]

Web link: http://dx.doi.org/10.1016/j.applthermaleng.2010.10.011

Keywords:

Channel fire, Carbon monoxide, Temperature Rise, Longitudinal, ventilation, Fire hazard, tunnel fires, longitudinal ventilation, smoke, velocity, stratification, flow

Abstract: In a channel fire, the transports of the two primary hazards, heat and CO species, are dominated by different mechanisms. Experiments were conducted in a horizontal channel with dimensions of 66.0 m long x 1.5 m wide x 1.3 m high to investigate the spatial distributions of CO volume concentration and those of temperature rise. The effects of longitudinal ventilation were also considered. Both in the longitudinal direction and in the vertical direction, profiles of CO volume concentration differ with those of temperature rise. In the downstream direction, the temperature rise of smoke flow decays rapidly with increase in the distance from the fire origin, while CO volume concentration remains constant in the longitudinal direction. A larger longitudinal ventilation velocity leads to a slower decay in temperature rise along the longitudinal direction. However, longitudinal ventilation has a small influence on the longitudinal profiles of normalized CO volume concentration. As compared with temperature rise, the CO volume concentration decays more slowly with the decrease in height under the conditions without longitudinal ventilation. However, a relatively large longitudinal ventilation velocity leads to a high similarity between the vertical profile of CO volume concentration and that of temperature rise. (C) 2010 Elsevier Ltd. All rights reserved.

 
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