| 129 - 130 |
Special issue on hydrogen safety
Molkov V |
| 131 - 135 |
Detailed and reduced chemistry for hydrogen autoignition
Williams FA |
| 136 - 146 |
Comments on explosion problems for hydrogen safety
Ng HD, Lee JHS |
| 147 - 153 |
Scale effects on hydrogen-air fast deflagrations and detonations in small obstructed channels
Teodorczyk A |
| 154 - 161 |
Numerical simulation of hydrogen-air detonation for damage assessment in realistic accident scenarios
Bedard-Tremblay L, Fang L, Bauwens L, Cheng Z, Tchouvelev AV |
| 162 - 184 |
CFD modelling of hydrogen release, dispersion and combustion for automotive scenarios
Venetsanos AG, Baraldi D, Adams P, Heggem PS, Wilkening H |
| 185 - 198 |
Mechanisms of high-pressure hydrogen gas self-ignition in tubes
Golub VV, Baklanov DI, Golovastov SV, Ivanov MF, Laskin IN, Saveliev AS, Semin NV, Volodin VV |
| 199 - 204 |
Self-ignition and explosion during discharge of high-pressure hydrogen
Mogi T, Kim D, Shiina H, Horiguchi S |
| 205 - 213 |
Numerical study on the spontaneous ignition of pressurized hydrogen release through a tube into air
Xu BP, El Hima L, Wen JX, Dembele S, Tam VHY, Donchev T |
| 214 - 221 |
Metal hydride fires and fire suppression agents
Zalosh R |
| 222 - 224 |
On the implementation of an international curriculum on hydrogen safety engineering into higher education
Dahoe AE, Molkov VV |
