Add to ORKGIn this paper, a local equivalence ratio based toxicity model has been extended to include the calculation of hydrogen cyanide (HCN) by applying a generalised relationship between the normalised yields of carbon monoxide (CO) and HCN. Two full-scale nylon fires have been simulated. The concentrations of toxic gases are calculated with the extended toxicity model while the release of heat due to combustion is modelled by the eddy dissipation combustion model. The predicted concentrations of CO2 are in good agreement with the measured data and the predicted concentrations of CO and HCN essentially follow the measured trends
Heat radiation, combustion products, and flame engulfment are the main hazards from a fire event. Se...
Heat radiation, combustion products, and flame engulfment are the main hazards from a fire event. Se...
Accidental fires represent a risk for people from the heat and fire effluents produced. It is clear ...
In this paper, a local equivalence ratio based toxicity model has been extended to include the calcu...
Experimental studies have demonstrated that there are close correlations between the normalized yiel...
The central idea behind the newly developed toxicity model is the use of the Local Equivalence Ratio...
A practical CFD method is presented in this study to predict the generation of toxic gases in enclos...
A chemical kinetics model for calculation of the formation of hydrogen cyanide (HCN) has been made. ...
A toxicity model on dividing the computational domain into two parts, a control region (CR) and a tr...
Mathematical modeling methods for the intoxication of rats by carbon mon-oxide and hydrogen cyanide ...
A generalized relationship between the normalized yields of carbon monoxide and hydrogen cyanide for...
A toxicity model capable of predicting toxic gas concentrations within fire enclosures utilizing the...
A chemical kinetics model for calculation of the formation of hydrogen cyanide (HCN) has been made. ...
Several components in combustion products of polymers are known to be or are suspected of being harm...
Heat radiation, combustion products, and flame engulfment are the main hazards from a fire event. Se...
Heat radiation, combustion products, and flame engulfment are the main hazards from a fire event. Se...
Heat radiation, combustion products, and flame engulfment are the main hazards from a fire event. Se...
Accidental fires represent a risk for people from the heat and fire effluents produced. It is clear ...
In this paper, a local equivalence ratio based toxicity model has been extended to include the calcu...
Experimental studies have demonstrated that there are close correlations between the normalized yiel...
The central idea behind the newly developed toxicity model is the use of the Local Equivalence Ratio...
A practical CFD method is presented in this study to predict the generation of toxic gases in enclos...
A chemical kinetics model for calculation of the formation of hydrogen cyanide (HCN) has been made. ...
A toxicity model on dividing the computational domain into two parts, a control region (CR) and a tr...
Mathematical modeling methods for the intoxication of rats by carbon mon-oxide and hydrogen cyanide ...
A generalized relationship between the normalized yields of carbon monoxide and hydrogen cyanide for...
A toxicity model capable of predicting toxic gas concentrations within fire enclosures utilizing the...
A chemical kinetics model for calculation of the formation of hydrogen cyanide (HCN) has been made. ...
Several components in combustion products of polymers are known to be or are suspected of being harm...
Heat radiation, combustion products, and flame engulfment are the main hazards from a fire event. Se...
Heat radiation, combustion products, and flame engulfment are the main hazards from a fire event. Se...
Heat radiation, combustion products, and flame engulfment are the main hazards from a fire event. Se...
Accidental fires represent a risk for people from the heat and fire effluents produced. It is clear ...