| 257 - 257 |
Special Issue: CFD for Explosion Phenomena - Preface
Di Benedetto A |
| 258 - 264 |
Calculations of explosion deflagrating flames using a dynamic flame surface density model
Ibrahim SS, Gubba SR, Masri AR, Malalasekera W |
| 265 - 270 |
Numerical simulation on the diffusion of hydrogen due to high pressured storage tanks failure
Liu YL, Zheng JY, Xu P, Zhao YZ, Bie HY, Chen HG, Dryver H |
| 271 - 278 |
"BLAST": A compilation of codes for the numerical simulation of the gas dynamics of explosions
van den Berg AC |
| 279 - 287 |
The effect of pressure boundary rupture rate on spontaneous ignition of pressurized hydrogen release
Xu BP, Wen JX, Dembele S, Tam VHY, Hawksworth SJ |
| 288 - 294 |
Differentiated routes for the simulation of the consequences of explosions
Proust C, Daubech J, Leprette E |
| 295 - 302 |
Using computational fluid dynamics as a tool for hydrogen safety studies
Middha P, Hansen OR |
| 303 - 315 |
Numerical analysis of release, dispersion and combustion of liquid hydrogen in a mock-up hydrogen refuelling station
Baraldi D, Venetsanos AG, Papanikolaou E, Heitsch M, Dallas V |
| 316 - 323 |
CFD simulations of atmospheric gas dispersion using the Fire Dynamics Simulator (FDS)
Mouilleau Y, Champassith A |
| 324 - 331 |
A CFD based approach to the correlation of maximum explosion overpressure to process plant parameters
Huser A, Foyn T, Skottene M |
| 332 - 352 |
Application of computational fluid dynamics for LNG vapor dispersion modeling: A study of key parameters
Cormier BR, Qi RF, Yun GW, Zhang YC, Mannan MS |
| 353 - 359 |
LES of high pressure hydrogen jet fire
Brennan SL, Makarov DV, Molkov V |
