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QRA of chemical reaction systems: The state of the practice
Author(s) -
Farquharson John,
McNutt Scott,
Paula Henrique,
Roberts Michel,
Waller Al
Publication year - 1997
Publication title -
process safety progress
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.378
H-Index - 40
eISSN - 1547-5913
pISSN - 1066-8527
DOI - 10.1002/prs.680160404
Subject(s) - fault tree analysis , event tree analysis , event tree , risk analysis (engineering) , process safety , process (computing) , reliability engineering , computer science , event (particle physics) , system safety , engineering , work in process , operations management , medicine , physics , quantum mechanics , operating system
This paper discusses a quantitative risk assessment (QRA) of an exothermic chemical process. Fault tree/event tree techniques were used to estimate the frequency of runaway reactions that could result in over‐pressure and vessel rupture. The paper focuses on the current methodology used in performing this type of study, emphasizing analytical techniques that help avoid potential time‐consuming pitfalls. The challenging problem of predicting how rare sequences of events (e.g., involving failure of several engineered control and safety systems) will develop is systematically modeled using fault trees/event trees, which makes the QRA process a unique and powerful analytical tool. The results of this study provided the guidance for selecting the most appropriate action(s) to implement from a set of various design options for improving the safety of this system. Use of QRA has enabled plant management to have confidence that they are selecting the most cost‐effective safety improvement option.