| 181 - 182 |
Second International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions - Eighth International Colloquium on Dust Explosions. Third Colloquium on Gas, Vapor, Hybrid and Fuel-Air Explosions - Preface
Amyotte PR, Cashdollar KL |
| 183 - 199 |
Overview of dust explosibility characteristics
Cashdollar KL |
| 201 - 208 |
Design of electrical equipment for areas containing combustible dust - Why dust standards cannot be extensively harmonised with gas standards
Eckhoff RK |
| 209 - 219 |
Flammability limit measurements for dusts in 20-L and 1-m(3) vessels
Going JE, Chatrathi K, Cashdollar KL |
| 221 - 228 |
Experimental research on explosibility at high initial pressures of combustible dusts
Lazaro EC, Torrent JG |
| 229 - 242 |
Experimental mine and laboratory dust explosion research at NIOSH
Sapko MJ, Weiss ES, Cashdollar KL, Zlochower IA |
| 243 - 251 |
Recent development of standardization of testing methods for dust explosion in Japan
Nifuku M, Matsuda T, Enomoto H |
| 253 - 263 |
Safe handling of combustible powders during transportation, charging, discharging and storage
Hoppe T, Jaeger N, Terry J |
| 265 - 275 |
Suppression of dust explosions by means of different explosive charges
Klemens R, Szatan B, Gieras M, Wolanski P, Maranda A, Nowaczewski J, Paszula J |
| 277 - 289 |
A correlation for the impulse produced by vented explosions
Tamanini F, Valiulis JV |
| 291 - 298 |
The influence of flow and turbulence on flame propagation through dust-air mixtures
Krause U, Kasch T |
| 299 - 309 |
Modeling of maize starch explosions in a 12 m(3) silo
Zhong SJ, Deng XF |
| 311 - 317 |
The possible use of solar panels as flame detectors of triggered barriers
Lebecki K, Sliz J, Dyduch Z, Cybulski K |
| 319 - 326 |
Propagation of smouldering in dust deposits caused by glowing nests or embedded hot bodies
Krause U, Schmidt M |
| 327 - 340 |
Flammability of methane, propane, and hydrogen gases
Cashdollar KL, Zlochower IA, Green GM, Thomas RA, Hertzberg M |
| 341 - 347 |
Critical dimensions of holes and slots for transmission of gas explosions - Some preliminary results for propane/air and cylindrical holes
Larsen O, Eckhoff RK |
| 349 - 359 |
Ignition of methane-air mixtures by laser heated small particles
Dubaniewicz TH, Cashdollar KL, Green GM, Chaiken RF |
| 361 - 368 |
Predicting the maximum gas deflagration pressure over the entire flammable range
Fan YY, Crawl DA |
| 369 - 376 |
Problems with identifying a standard procedure for determining K-G values for flammable vapors
Mashuga CV, Crowl DA |
| 377 - 384 |
Flammability of gas mixtures containing volatile organic compounds and hydrogen
Liekhus KJ, Zlochower IA, Cashdollar KL, Djordjevic SM, Loehr CA |
| 385 - 392 |
Determination of the critical flammability ratio (CFR) of refrigerant blends
Girodroux F, Kusmierz A, Dahn CJ |
| 393 - 396 |
Energy estimation on ethylene sphere explosion
Wang YP, Wang ZP, Wang CG, Hu B |
| 397 - 409 |
Venting of deflagrations: hydrocarbon-air and hydrogen-air systems
Molkov V, Dobashi R, Suzuki M, Hirano T |
| 411 - 417 |
External pressures generated by vented gas and dust explosions
Forcier T, Zalosh R |
| 419 - 431 |
Prediction of vapour cloud explosions using the SCOPE model
Puttock JS, Yardley MR, Cresswell TM |
| 433 - 438 |
Comparison of blast curves from vapor cloud explosions
Tang MJ, Baker QA |
| 439 - 442 |
Causes and lessons of five explosion accidents
Zhang GS |
