| 389 - 395 |
A comparative analysis between temperature and pressure measurements for early detection of runaway initiation
Bosch J, Strozzi F, Snee TJ, Hare JA, Zaldivar JM |
| 397 - 405 |
Expansion-controlled evaporation: a safe approach to BLEVE blast
van den Berg AC, van der Voort MM, Weerheijm J, Versloot NHA |
| 407 - 417 |
Computer simulation of shock waves transmission in obstructed terrains
Sklavounos S, Rigas F |
| 419 - 429 |
Important meteorological data for use in risk assessment
Nivolianitou ZS, Synodinou BM, Aneziris ON |
| 431 - 436 |
Calculating overpressure from BLEVE explosions
Planas-Cuchi E, Salla JM, Casal J |
| 437 - 447 |
Threshold values for domino effects caused by blast wave interaction with process equipment
Cozzani V, Salzano E |
| 449 - 465 |
Aluminium dust explosion risk analysis in metal workings
Marmo L, Cavallero D, Debernardi ML |
| 467 - 475 |
Comparison of techniques for accident scenario analysis in hazardous systems
Nivolianitou ZS, Leopoulos VN, Konstantinidou M |
| 477 - 482 |
Risk analysis for road and rail transport of hazardous materials: a simplified approach
Bubbico R, Di Cave S, Mazzarotta B |
| 483 - 488 |
Risk analysis for road and rail transport of hazardous materials: a GIS approach
Bubbico R, Di Cave S, Mazzarotta B |
| 489 - 498 |
Use of bifurcation analysis for identification of a safe CSTR operability
Moindr A, Krajiovd M, Markog J, Jelemensky L |
| 499 - 503 |
Regulations of major accident hazards control in Serbia and their implementation
Stojanovic B, Jovasevic-Stojanovic M |
| 505 - 508 |
The effect of admixed material on the flaming and smouldering combustion of dust layers
Sweis FK |
| 509 - 512 |
Trend analysis of machinery safety for globalization From the Japanese point of view
Kim TG, Fukuda T, Shimizu H |
| 513 - 514 |
"evaluations of kinetic parameters and critical runaway conditions in the reaction system of hexamine-nitric acid to produce RDX in a non-isothermal batch reactor"
Eisenberg S, Shacham M, Brauner N |
