| 441 - 442 |
Third International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions; Ninth International Colloquium on Dust Explosions. Fourth Colloquium on Gas, Vapor, Hybrid and Fuel-Air Explosions - Preface
Dobashi R, Wolanski P |
| 443 - 447 |
Characteristics of the vibrating-mesh minimum ignition energy testing apparatus for dust clouds
Choi KS, Yamaguma M, Kodama T, Joung JH, Takeuchi M |
| 449 - 453 |
Some aspects in testing and assessment of metal dust explosions
Matsuda T, Yashima M, Nifuku M, Enomoto H |
| 455 - 461 |
Scaling parameters for vented gas and dust explosions
Tamanini F |
| 463 - 467 |
Temperature profile across the combustion zone propagating through an iron particle cloud
Sun JH, Dobashi R, Hirano T |
| 469 - 473 |
Numerical study of dust lifting in a channel with vertical obstacles
Klemens R, Kosinski P, Wolanski P, Korobeinikov VP, Markov VV, Menshov IS, Semenov IV |
| 475 - 487 |
On the transient flow in the 20-liter explosion sphere
Dahoe AE, Cant RS, Pegg MJ, Scarlett B |
| 489 - 494 |
Efficiency of triggered barriers in dust explosion suppression in galleries
Lebecki K, Sliz J, Cybulski K, Dyduch Z |
| 495 - 502 |
Cornstarch explosion experiments and modeling in vessels ranged by height/diameter ratios
Radandt S, Shi JY, Vogl A, Deng XF, Zhong SJ |
| 503 - 507 |
Particle image velocimetry (PIV) analysis of flame structure
Otsuka T, Wolanski P |
| 509 - 514 |
Evaluation of the explosibility of malt grain dust based on static electrification during pneumatic transportation
Nifuku M, Enomoto H |
| 515 - 520 |
Ignition wave in a two-velocity two-temperature multiphase mixture
Fedorov AV, Gosteev YA |
| 521 - 526 |
Detonation wave modelling in typical bubble systems
Fomin PA, Vasil'ev AA |
| 527 - 532 |
The influence of initial conditions on the propagation of smouldering fires in dust accumulations
Krause U, Schmidt M |
| 533 - 538 |
Influence of physical properties of ammonium nitrate on the detonation behaviour of ANFO
Miyake A, Takahara K, Ogawa T, Ogata Y, Wada Y, Arai H |
| 539 - 545 |
Combustion characteristics of asphalt and sodium compounds
Iwata Y, Koseki H |
| 547 - 551 |
Incendiary characteristics of electrostatic discharge for dust and gas explosion
Nifuku M, Katoh H |
| 553 - 557 |
Methodology for case studies of accidental gas explosions
Hirano T |
| 559 - 565 |
Decomposing detonation and deflagration properties of ozone/oxygen mixtures
Mizutani T, Matsui H, Sanui H, Yonekura M |
| 567 - 574 |
Unified correlations for vent sizing of enclosures at atmospheric and elevated pressures
Molkov VV |
| 575 - 581 |
CREBCOM code system for description of gaseous combustion
Efimenko AA, Dorofeev SB |
| 583 - 589 |
Evaluation of limits for effective flame acceleration in hydrogen mixtures
Dorofeev SB, Kuznetsov MS, Alekseev VI, Efimenko AA, Breitung W |
| 591 - 596 |
Experimental study of flame acceleration and the deflagration-to-detonation transition under conditions of transverse venting
Alekseev VI, Kuznetsov MS, Yankin YG, Dorofeev SB |
| 597 - 602 |
A study on the obstacle-induced variation of the gas explosion characteristics
Oh KH, Kim H, Kim JB, Lee SE |
| 603 - 608 |
Experiments and numerical simulation on methane flame quenching by water mist
Shimizu H, Tsuzuki M, Yamazaki Y, Hayashi AK |
