[2011] Quantitative assessment of hydrocarbon explosion and fire risks…
최고관리자 | 11-11-04 11:50
Marine Structures, vol.24, Issue 2, pp.73-96, June 2011
Quantitative assessment of hydrocarbon explosion and fire risks in offshore installations
Author(s): J.K. Paik, J. Czujko, B.J. Kim, J.K. Seo, H.S. Ryu, Y.C. Ha, P. Janiszewski and B. Musial
Abstract:
A risk-based design framework should involve both risk assessment and risk management. This article introduces and describes a number of procedures for the quantitative assessment and management of fire and gas explosion risks in offshore installations. These procedures were developed in a joint industry project on the explosion and fire engineering of floating, production, storage and off-loading units (the EFEF JIP), which was led by the authors. The present article reports partial results, focussing on defining the frequency of fires and explosions in offshore installations. Examples of the aforementioned procedures’ application to a hypothetical floating, production, storage, and off-loading unit (FPSO) are presented. A framework for the quantitative risk assessment of fires and explosions requires the definition of both the frequency and consequences of such events. These procedures can be efficiently applied in offshore development projects, and the application includes the assessment of design explosion and fire loads as well as the quantification of effects of risk control options (RCO) such as platform layout, location and number of gas detectors, isolation of ignition sources etc.
Quantitative assessment of hydrocarbon explosion and fire risks in offshore installations
Author(s): J.K. Paik, J. Czujko, B.J. Kim, J.K. Seo, H.S. Ryu, Y.C. Ha, P. Janiszewski and B. Musial
Abstract:
A risk-based design framework should involve both risk assessment and risk management. This article introduces and describes a number of procedures for the quantitative assessment and management of fire and gas explosion risks in offshore installations. These procedures were developed in a joint industry project on the explosion and fire engineering of floating, production, storage and off-loading units (the EFEF JIP), which was led by the authors. The present article reports partial results, focussing on defining the frequency of fires and explosions in offshore installations. Examples of the aforementioned procedures’ application to a hypothetical floating, production, storage, and off-loading unit (FPSO) are presented. A framework for the quantitative risk assessment of fires and explosions requires the definition of both the frequency and consequences of such events. These procedures can be efficiently applied in offshore development projects, and the application includes the assessment of design explosion and fire loads as well as the quantification of effects of risk control options (RCO) such as platform layout, location and number of gas detectors, isolation of ignition sources etc.
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