| 103 - 103 |
Fifth International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions: Eleventh International Colloquium on Dust Explosions & Sixth Colloquium on Gas, Vapor, Liquid and Hybrid Explosions - Preface
Amyotte PR |
| 104 - 120 |
A few fundamental aspects about ignition and flame propagation in dust clouds
Proust C |
| 121 - 129 |
The nature and large eddy simulation of coherent deflagrations in a vented enclosure-atmosphere system
Molkov V, Makarov D, Puttock J |
| 130 - 134 |
Measurement of turbulent burning velocities by means of the open tube method
Schneider H |
| 135 - 141 |
Velocity and number density profiles of particles across upward and downward flame propagating through iron particle clouds
Sun JH, Ritsu D, Toshisuke H |
| 142 - 148 |
Explosibility parameters for mixtures of pulverized fuel and ash
Amyotte PR, Khan FI, Basu A, Dastidar AG, Dumeah RK, Erving WL |
| 149 - 153 |
Detailed analysis of flame propagation during dust explosions by UV band observations
Dobashi R, Senda K |
| 154 - 160 |
Initiation of dust explosions by electric spark discharges triggered by the explosive dust cloud itself
Randeberg E, Eckhoff RK |
| 161 - 173 |
Solid inertants and their use in dust explosion prevention and mitigation
Amyotte PR |
| 174 - 180 |
Explosibility of fine graphite and tungsten dusts and their mixtures
Denkevits A, Dorofeev S |
| 181 - 186 |
Ignitability assessment of shredder dusts of refrigerator and the prevention of the dust explosion
Nifuku M, Tsujita H, Fujino K, Takaichi K, Barre C, Paya E, Hatori M, Fujiwara S, Horiguchi S, Sochet I |
| 187 - 193 |
Mathematical modelling of dust-air mixture explosion suppression
Oleszczak P, Klemens R |
| 194 - 199 |
Experiments on the influence of pre-ignition turbulence on vented gas and dust explosions
Scheid M, Geissler A, Krause U |
| 200 - 209 |
Dynamics of dust dispersion from the layer behind the propagating shock wave
Klemens R, Zydak P, Kaluzny M, Litwin D, Wolanski P |
| 210 - 217 |
Simulation of dust explosions in complex geometries with experimental input from standardized tests
Skjold T, Arntzen BJ, Hansen OR, Storvik IE, Eckhoff RK |
| 218 - 226 |
A numerical model to simulate smouldering fires in bulk materials and dust deposits
Krause U, Schmidt M, Lohrer C |
| 227 - 232 |
Use of detailed kinetic mechanisms for the prediction of autoignitions
Buda F, Glaude PA, Battin-Leclerc F, Porter R, Hughes KJ, Griffiths JF |
| 233 - 237 |
Ignition of a dust layer by a constant heat flux-heat transport in the layer
Dyduch Z, Majcher B |
| 238 - 244 |
Initiation of strong reactive shocks and detonation by traveling ignition pulses
Frolov SM |
| 245 - 249 |
Gas explosions caused by gasification of condensed phase combustibles
Hirano T |
| 250 - 262 |
Effect of the concentration distribution on the gaseous deflagration propagation in the case of H-2/O-2 mixture
Sochet I, Gillard P, Guelon F |
| 263 - 270 |
Determination of explosion parameters of methane-air mixtures in the chamber of 40 dm(3) at normal and elevated temperature
Gieras M, Klemens R, Rarata G, Wolanski P |
| 271 - 279 |
Study of the propagation of kerosene explosions inside a partitioned vessel
Pascaud JM, Gillard P |
| 280 - 287 |
Vented confined explosions in Stramberk experimental mine and AutoReaGas simulation
Janovsky B, Selesovsky P, Horkel J, Vejsa L |
| 288 - 291 |
Process of accidental explosions at a refuse derived fuel storage
Gao LJ, Hirano T |
| 292 - 297 |
Experimental simulation of airbag deployment for pipeline closing
Seiler F, Ende H, Hensel D, Srulijes J |
| 298 - 305 |
Functional safety concept for hazardous systems and new challenges
Kosmowski KT |
