A sub-model of untenable situations in room fires was first developed to predict the onset time of untenable situations in this study. Then, a deterministic model of egress safety/failure in room fires was established by integrating the onset time of untenable situations with the required egress time obtained from the sub-model of occupant egress. Based on reliability-based design and structure function, the deterministic model of egress safety/failure in room fires was transformed into ＂the stochastic model of egress safety/failure in room fires＂. Moreover, stochastic parameters and probability distributions of the proposed model were assumed and random numbers of parameters were generated by the Monte Carlo simulation. The failure probabilities of occupant egress due to either one or both of the untenable conditions (when carbon monoxide concentration reaches 1400 ppm or carboxyhemoglobin concentration reaches 30 %) were obtained after simulations. After the model development, a pub is taken as an example to compare both dangerous threats by executing several simulations under 2 situations of 150 occupants and 200 occupants respectively. From the result comparison, some ideas for fire officers and future studies for fire researchers are recommended.