An approach for domino effect reduction based on optimal layouts

An approach to reduce the probability of producing a domino effect in process industry is developed in this work. It is assumed that optimal layouts should include appropriate analysis to reduce risk during the process design stage. The model developed for this approach combines the estimation of pr...

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Veröffentlicht in:	Journal of loss prevention in the process industries 2013-09, Vol.26 (5), p.887-894
Hauptverfasser:	López-Molina, Antioco, Vázquez-Román, Richart, Mannan, M. Sam, Félix-Flores, M. Guadalupe
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical process industries Domino effect Explosion Layout Overpressure Probability distribution Probit function Reliability Risk assessment Risk reduction
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container_title	Journal of loss prevention in the process industries
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creator	López-Molina, Antioco Vázquez-Román, Richart Mannan, M. Sam Félix-Flores, M. Guadalupe
description	An approach to reduce the probability of producing a domino effect in process industry is developed in this work. It is assumed that optimal layouts should include appropriate analysis to reduce risk during the process design stage. The model developed for this approach combines the estimation of probability of damage due to overpressure, proposed by Mingguang and Juncheng (2008), and escalation threshold values defined by Cozzani, Gubinelli, and Salzano (2006). These equations are combined with other typical layout constraints as well as bounding the probability constraint, which has resulted in a highly non-linear MINLP problem. Solving a case study used by other authors provides evidence for reliability of the developed approach. In this way, layouts are designed to reduce the escalation probability yielding safe distributions. ► A probabilistic approach to prevent domino effect. ► Optima layouts can reduce domino effect. ► Probit functions are used to estimate damage probability due to overpressure. ► Probability of domino escalation must be performed during the design stage.
doi_str_mv	10.1016/j.jlp.2012.11.001
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subjects	Chemical process industries Domino effect Explosion Layout Overpressure Probability distribution Probit function Reliability Risk assessment Risk reduction
title	An approach for domino effect reduction based on optimal layouts
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