| 655 - 666 |
Design as a contributor to chemical process accidents
Kidam K, Hurme M |
| 667 - 676 |
Epistemic uncertainty in fault tree analysis approached by the evidence theory
Curcuru G, Galante GM, La Fata CM |
| 677 - 685 |
Analysis of injury events with fuzzy cognitive maps
Bevilacqua M, Ciarapica FE, Mazzuto G |
| 686 - 693 |
Characteristics of hazardous chemical accidents in China: A statistical investigation
Zhang HD, Zheng XP |
| 694 - 702 |
A hybrid approach to faults detection and diagnosis in batch and semi-batch reactors by using EKF and neural network classifier
Benkouider AM, Kessas R, Yahiaoui A, Buvat JC, Guella S |
| 703 - 708 |
The thermal hazard evaluation of 1,1-di (tert-butylperoxy) cyclohexane by DSC using non-isothermal and isothermal-kinetic simulations
Tseng JM, Wu TC, Hsieh TF, Huang PJ, Lin CP |
| 709 - 717 |
On the analysis of hydrocarbon leaks in the Norwegian offshore industry
Vinnem JE |
| 718 - 729 |
Experimental study on thermal and toxic hazards connected to fire scenarios in road tunnels
Vianello C, Fabiano B, Palazzi E, Maschio G |
| 730 - 738 |
Large eddy simulation of methane-air deflagration in an obstructed chamber using different combustion models
Wen XP, Yu MG, Liu ZC, Sun WC |
| 739 - 745 |
Emergency venting into redundant pipelines
Ettouney RS, El-Rifai MA, Elzoubier AA |
| 746 - 759 |
A blended hazard identification methodology to support process diagnosis
Seligmann BJ, Nemeth E, Hangos KM, Cameron IT |
