| 113 - 127 |
Operational risk assessment of chemical industries by exploiting accident databases
Meel A, O'Neill LM, Levin JH, Seider WD, Oktem U, Keren N |
| 128 - 134 |
A probabilistic model for the vulnerability of metal plates under the impact of cylindrical projectiles
Mebarki A, Nguyen QB, Mercier F, Saada RA, Meftah F, Reimeringer M |
| 135 - 143 |
n-Compartment mathematical model for transient evaluation of fluid curtains in mitigating chlorine releases
Palazzi E, Curro F, Fabiano B |
| 144 - 150 |
Flammability envelopes for methanol, ethanol, acetonitrile and toluene
Brooks MR, Crowl DA |
| 151 - 157 |
Prediction of energy release hazards using a simplified adiabatic temperature rise
Hada S, Harrison BK |
| 158 - 164 |
The hazards and risks of hydrogen
Crowl DA, Jo YD |
| 165 - 181 |
Accidental risk of superheated liquids and a framework for predicting the superheat limit
Abbasi T, Abbasi SA |
| 182 - 182 |
Comments on: "Characteristics of large cooking oil pool fires and their extinguishment by water mist", by Z. Liu, D. Carpenter, and A. K. Kim [Journal of Loss Prevention in the Process Industries 19(6) (2006) 516-526]
Jones JC |
| 183 - 183 |
Minimum ignition energies: A fundamental perspective
Jones JC |
