论文信息 - Improving Heat Transfer Models of Air Gaps in Bench Top Tests of Thermal Protective Fabrics

Improving Heat Transfer Models of Air Gaps in Bench Top Tests of Thermal Protective Fabrics

An improved model has been developed to simulate heat transfer in horizontal air spaces between thermal protective fabrics and test sensors in bench top tests, such as the thermal protective performance test. This model calculates the radiation and convection heat transfer from the test specimen to the test sensor. Radiation heat transfer is calculated by treating the bottom boundary of the enclosure as a series of isothermal rectangular pieces. Convection heat transfer is calculated using an empirical correlation and by assuming that convection only occurs over a portion of the cross-section of the enclosure. Predicted times required to exceed the Stoll second degree burn criterion were found to be within 3 % of those measured during actual bench top tests of steel shimstock using air gaps from 6.4 mm (1/4 in.) to 19.1 mm (3/4 in.).

David A. Torvi | Chris M. J. Sawcyn

[1] David A. Torvi,et al. Effects of Variations in Thermal Properties on the Performance of Flame Resistant Fabrics for Flash Fires , 1998 .

[2] H. Richtering. Combustion, Flames and Explosions of Gases , 1963 .

[3] Max Jakob. Heat Transfer. Volume II , 1957 .

[4] David A. Torvi,et al. Heat Transfer in Thin Fibrous Materials Under High Heat Flux , 1999 .

[5] Patirop Chitrphiromsri,et al. Modeling of Thermal Performance of Firefighter Protective Clothing during the Intense Heat Exposure. , 2005 .

[6] A M Stoll,et al. Method and rating system for evaluation of thermal protection. , 1968, Aerospace medicine.

[7] David A. Torvi. Heat transfer in thin fibrous materials under high heat flux conditions , 1997 .

[8] Fang-Long Zhu,et al. Evaluation of Thermal Performance of Flame-resistant Fabrics Considering Thermal Wave Influence in Human Skin Model , 2006 .

[9] David A. Torvi,et al. Heat Transfer Model of Flame Resistant Fabrics During Cooling After Exposure to Fire , 2006 .

[10] Guowen Song,et al. Modeling Thermal Protection Outfits for Fire Exposures , 2003 .

[11] J. M. Coulson,et al. Heat Transfer , 2018, Finite Element Method for Solids and Structures.

[12] K.G.T. Hollands,et al. Correlation equations for free convection heat transfer in horizontal layers of air and water , 1975 .