| 361 - 366 |
Case studies of chemical incidents and emergency information service in Korea
Chung ST, Il Kim K |
| 367 - 372 |
Error-free scheduling for batch processes using symbolic model verifier
Kim J, Kim J, Moon I |
| 373 - 380 |
ExpHAZOP(+): Knowledge-based expert system to conduct automated HAZOP
Rahman S, Khan F, Veitch B, Amyotte P |
| 381 - 391 |
A comparative analysis of mathematical models for relating indoor and outdoor toxic gas concentrations in accidental releases
Montoya MI, Planas E, Casal J |
| 392 - 397 |
Risk-based maintenance strategy and its applications in a petrochemical reforming reaction system
Hu HJ, Cheng GX, Li Y, Tang YP |
| 398 - 402 |
Performance evaluation of process safety management systems of paint manufacturing facilities
Chang JI, Liang CL |
| 403 - 407 |
Maintenance optimization using probabilistic cost-benefit analysis
Ghosh D, Roy S |
| 408 - 416 |
Structural fragments and explosions in industrial facilities. Part I: Probabilistic description of the source terms
Mebarki A, Mercier F, Nguyen QB, Saada RA |
| 417 - 425 |
Structural fragments and explosions in industrial facilities: Part II -Projectile trajectory and probability of impact
Mebarki A, Nguyen QB, Mercier F |
| 426 - 433 |
CFD modeling of spontaneous heating in a large-scale coal chamber
Yuan LM, Smith AC |
| 434 - 438 |
The costs of industrial accidents for the organization: Developing methods and tools for evaluation and cost-benefit analysis of investment in safety
Gavious A, Mizrahi S, Shani Y, Minchuk Y |
| 439 - 448 |
A mathematical model to predict the heating-up of large-scale wood piles
Ferrero F, Lohrer C, Schmidt BM, Noll M, Malow M |
| 449 - 454 |
Energy concentration factor. A simple concept for the prediction of blast propagation in partially confined geometries
Silvestrini M, Genova B, Trujillo FJL |
| 455 - 462 |
Inherent safety of substances: Identification of accidental scenarios due to decomposition products
Cordella M, Tugnoli A, Barontini F, Spadoni G, Cozzani V |
| 463 - 468 |
Inerting effect of the combustion products on the confined deflagration of liquefied petroleum gas-air mixtures
Razus D, Brinzea V, Mitu M, Movileanu C, Oancea D |
| 469 - 476 |
Criticality evaluation of petrochemical equipment based on fuzzy comprehensive evaluation and a BP neural network
Guo LJ, Gao JJ, Yang JF, Kang JX |
| 477 - 483 |
Investigation on thermal stability of flavianic acid disodium salt
Fu ZM, Koseki H, Iwata Y |
| 484 - 491 |
An overview of accident forecasting methodologies
Zheng XP, Liu MT |
| 492 - 498 |
Modelling the risk of failure in explosion protection installations
Date P, Lade RJ, Mitra G, Moore PE |
| 499 - 505 |
The limiting oxygen concentration and flammability limits of gases and gas mixtures
Zlochower IA, Green GM |
| 506 - 515 |
Applications of 3D QRA technique to the fire/explosion simulation and hazard mitigation within a naphtha-cracking plant
Yet-Pole I, Shu CM, Chong CH |
| 516 - 527 |
Collective work and resilience of complex systems
Vidal MCR, Carvalho PVR, Santos MS, dos Santos IJL |
| 528 - 532 |
A statistical analysis of coal mine accidents caused by coal dust explosions in China
Zheng YP, Feng CG, Jing GX, Qian XM, Li XJ, Liu ZY, Huang P |
| 533 - 539 |
Comprehensive risk assessment and management of petrochemical feed and product transportation pipelines
Gharabagh MJ, Asilian H, Mortasavi SB, Mogaddam AZ, Hajizadeh E, Khavanin A |
| 540 - 550 |
The effect of changing the fuel of the LASTFIRE test
Shawash F, Moinuddin K, Thomas I |
| 551 - 551 |
Untitled
Jones JC |
| 552 - 552 |
Letter of calculation
Li XR |
| 553 - 553 |
Spontaneous heating of a coal stockpile
Jones JC |
| 554 - 554 |
Spontaneous heating of a coal stockpile Response
Yuan LM, Smith AC |
