A quantitative risk management framework for dust and hybrid mixture explosions |
| |
Authors: | Meftah Abuswer Paul Amyotte Faisal Khan |
| |
Affiliation: | 1. Department of Process Engineering and Applied Science, Dalhousie University, P.O. Box 1000, Halifax, NS, Canada B3J 2X4;2. Faculty of Engineering and Applied Science, Memorial University, St. John’s, NL, Canada A1B 3X5 |
| |
Abstract: | Dust and hybrid-mixture explosions continue to occur in industrial processes that handle fine powders and flammable gases. Considerable research is therefore conducted throughout the world with the objective of both preventing the occurrence and mitigating the consequences of such events. In the current work, research has been undertaken to help move the field of dust explosion prevention and mitigation from its current emphasis on hazards (with an accompanying reliance on primarily engineered safety features) to a focus on risk (with an accompanying reliance on hierarchical, risk-based, decision-making tools). Employing the principles of quantitative risk assessment (QRA) of dust and hybrid-mixture explosions, a methodological framework for the management of these risks has been developed.The QRA framework is based on hazard identification via credible accident scenarios for dust explosions, followed by probabilistic fault-tree analysis (using Relex – Reliability Excellence – software) and consequence severity analysis (using DESC – Dust Explosion Simulation Code – software). Identification of risk reduction measures in the framework is accomplished in a hierarchical manner by considering inherent safety measures, passive and active engineered devices, and procedural measures (in that order). An industrial case study is presented to show how inherent safety measures such as dust minimization and dust/process moderation can be helpful in reducing dust and hybrid-mixture explosion consequences in a 400-m3 polyethylene storage silo. |
| |
Keywords: | |
本文献已被 ScienceDirect 等数据库收录! |
|