The aim of this study was to analyse the transfer of steam through different types of textile layers as a function of sample parameters such as thickness and permeability. In order to simulate the human body, a cylinder releasing defined amounts of moisture was also used. The influence of sweating on heat and mass transfer was assessed. The results show that in general impermeable materials offer better protection against hot steam than semi-permeable ones. The transfer of steam depended on the water vapour permeability of the samples, but also on their thermal insulation and their thickness. Increasing the thickness of the samples with a spacer gave a larger increase in protection with the impermeable samples compared to semi-permeable materials. Measurements with pre-wetted samples showed a reduction in steam protection in any case. On the other hand, the measurements with a sweating cylinder showed a beneficial effect of sweating.
[1]
H Mäkinen,et al.
Simulation of the Effect of Moisture Content in Underwear and on the Skin Surface on Steam Burns of Fire Fighters
,
1988
.
[2]
W. A. Phillips,et al.
The Contribution of Wool to Improving the Safety of Workers Against Flames and Molten Metal Hazards
,
1986
.
[3]
Roger L. Barker,et al.
Performance of Protective Clothing
,
1986
.
[4]
James H. Veghte.
Effect of moisture on the burn potential in fire fighters' gloves
,
1987
.
[5]
René M. Rossi,et al.
Influence of Humidity on the Radiant, Convective and Contact Heat Transmission Through Protective Clothing Materials
,
1996
.
[6]
Roger L. Barker,et al.
Effect of Moisture on the Thermal Protective Performance of Heat-Resistant Fabrics
,
1986
.