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- 10.3 Preventive measures
- 11SOLUTION TO MODEL MULTI-UNIT FOR MAN-MADE HAZARDS AND AIRCRAFT CRASH PSA
- 11.2CCF
10.2Special provisionsThere are additional means that can be undertaken in order to be better prepared in case of emergency caused by external fire, explosion or aircraft crash. It concerns the following issues:
10.3Preventive measuresBased on the results of the hazards scenarios analyses and the evaluation of emergency response actions the preventive measures may be identified and implemented as deemed practical. This is especially important for the scenarios for which emergency actions are insufficient or cannot be implemented in timely manner to reduce the consequences below the acceptable level. Some examples of preventive measures are listed below [57]:
11SOLUTION TO MODEL MULTI-UNIT FOR MAN-MADE HAZARDS AND AIRCRAFT CRASH PSA11.1Accident sequencesMan-made hazards and aircraft crash accidental events can simultaneously affect all the units at a site: this requires appropriate interface arrangements to deal with as well as with the potential domino effects (as explosions resulting in pressure or shock wave propagating from one unit to another). These site initiating events create the potential for similar accident sequences due to the failure of common or shared mitigation systems as well as the potential for common cause failure of identical components across units or inter-unit common cause failures. In addition, a single-unit event can trigger a cascade sequence to impact the other units: for units with shared or connected structures, internal fires, for instance consequential to an aircraft crash, can propagate from the first-impacted unit to affect the second unit. 11.2CCFThe first step within the approach to assessing site integrated risk consists in the identification of the interactions between the units because of specific design features, operating practices, safety features and culture, economic considerations and construction layout: the multi-unit dependencies must be identified, accounted for and modelled within the PRA model of the site. These include principally the common elements shared by units in the site, including:
These dependencies are to be modelled somehow in the site PRA framework. In order to accomplish the task, for instance, the dependencies of all front-line systems are to be defined in a dependency matrix. This approach is already typically performed for single-unit PRAs and includes only hard physical connections, such as a motor-operated valve needing to have power from a predefined source. These matrices allow the PRA model developer to know what to consider when creating the system fault tree. Using the base PRA, the initiating events, shared connections, and identical components would be developed. As regards human and organizational dependencies, one can resort to human reliability analysis. Directory: wp-content -> uploads -> 2016 2016 -> 2017 afoCo Landmark Scholarship Program 2016 -> Instructions for the Preparation of Camera-Ready Contributions to the Conference Proceedings 2016 -> Step student Scholarships for Year 10-13 2016 -> The united church of canada 2016 -> Idan raichel biography – May 2016 Brief Producer, keyboardist, Lyricist, composer and Performer Idan Raichel 2016 -> An introduction to centre’s interventions expanding access to justice 2016 -> Sanchar Shakti 2016 -> Unit analysis should help here. We want number of bananas 2016 -> The Autobiography of Elder Joseph Bates 2016 -> The Great Heat and the Rhode Island Deep Water Bay Scallop (Argopecten irradians) Fishery 1875-1905 Download 1 Mb. Share with your friends:
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