Abstract
The present study considers a multilayer fire protective ensemble consisting of Nomex IIIA fabric with a honeycomb weave structure as an outer layer, aramid batting quilted to Nomex as a moisture barrier, and Teijin Conex as an inner layer, and cotton as face fabric. The performance of the multilayer ensemble (in vertical orientation) is analysed numerically for different exposure conditions, namely flame (convective) exposure, radiant heat exposure, and combined convective-radiant exposures with varying airgap widths. A coupled conduction-radiative heat transfer model is presented and solved numerically using an in-house developed code to evaluate the protective performance of ensembles subjected to a higher heat flux. The model and code are validated with the experimental data obtained using the bench top tests (Vertical Thermal Protective Performance (TPP) Tester) for lower heat flux. From the model results, the highest burn time for the protective ensemble is observed under flame exposure and the lowest under radiant exposure.
Disclosure statement
No potential conflict of interest was reported by the authors.