A review of the methodologies for the resilience assessment in the process industry

• Autorzy: Demichela M. , Gallo M. , Salzano E.
• Języki publikacji: EN

Abstrakty

EN

A widely accepted definition of resilience is the intrinsic ability of a system to adjust its functioning prior to, during, or following changes and disturbances so that it can sustain required operational safety under both expected and unexpected conditions. These concepts have been applied in the process or manufacturing industry with different attempts in switching from the traditional risk management approach to a resilience one, still finding a lack of clarity in the definitions and in the objectives and, consequently, a lack in the methodologies and tools to support those efforts. The attempts and the need for further research or clarification is discussed in this paper.

Słowa kluczowe

EN

process plants; resilience; risk assessment

• Wydawca: Polskie Towarzystwo Bezpieczeństwa i Niezawodności
• Czasopismo: Journal of Polish Safety and Reliability Association
• Rocznik: 2015
• Tom: Vol. 6, No. 3
• Strony: 39--44
• Opis fizyczny: Bibliogr. 17 poz., rys.

Twórcy

autor

Demichela M.

• Dipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, Torino, Italy

autor

Gallo M.

• Dipartimento di Ingegneria Chimica dei Materiali e della Produzione Industriale, Università degli Studi di Napoli Federico II, Napol, Italy

autor

Salzano E.

• Istituto di Ricerche sulla Combustione, Consiglio Nazionale delle Ricerche, Napoli, Italy

Bibliografia

• [1] .Azadeh, A., Salehi, V., Arvan, M. & Dolatkhah, M. (2014). Assessment of resilience engineering factors in high-risk environments by fuzzy cognitive maps: A petrochemical plant. Safety Science, 68 99-107.
• [2] Costella, M.F., Saurin, T.A. & Buarque de Macedo Guimarães, L. (2009). A method for assessing health and safety management systems from the resilience engineering perspective. Safety Science, 47, 8, 1056-1067.
• [3] Demichela, M. & Piccinini, N. (2006). How the management aspects can affect the results of the QRA. Journal of Loss Prevention in the Process Industries, 19, 1, 70-77.
• [4] Dinh, L.T.T., Pasman, H., Gao, X. & Mannan, M.S. (2012). Resilience engineering of industrial processes: Principles and contributing factors. J. Loss Prevent. Proc. 25, 233-241.
• [5] Ferrario, E. & Zio, E. (2014). Assessing nuclear power plant safety and recovery from earthquakes using a system-of-systems approach. Rel. Eng. & Sys. Safety 125, 103-116.
• [6] Garcìa-Serna, J., Perez-Barrigon, L. & Cocero M.J. (2007). New trends for design towards sustainability in chemical engineering: Green engineering. Chemical Engineering Journal 133, 7-30.
• [7] Hollnagel, E., Woods, D.D. & Leveson, N. (2006). Resilience Engineering: Concepts and Precepts. Ashgate Publishing Ltd., Aldershot, UK.
• [8] Hollnagel, E. (2007). Resilience engineering. PSYKOLOGIA 42 (6), 493.
• [9] Lekka, C. & Sugden, C. (2011). The Successes and Challenges of Implementing High Reliability Principles: a Case Study of UK Oil Refinery. Process Safety and Environmental Protection, 89(6), 443-451
• [10] Mitchell, S.M. & Mannan, M.S. (2006). Designing resilient engineered systems. Chemical Engineering Progress 102, 39-45.
• [11] Paltrinieri, N., Dechy, N., Salzano, E., Wardman, M. & Cozzani, V. (2012). Lessons learnt from Toulouse and Buncefield disasters: from risk analysis failures to the identification of atypical scenarios through a better knowledge management. Risk Analysis 32, 1404-1419.
• [12] Paltrinieri, N., Dechy, N., Salzano, E., Wardman, M. & Cozzani, V. (2013). Towards a new approach for the identification of atypical scenarios. Journal of Risk Reseasech, 16, 337-354.
• [13] Pasman, H.J & Knegtering, B. (2008). Safety of the process industries in the 21st century: A changing need of process safety management for a changing industry. Journal of Loss Prevention in the Process Industries 22, 162-168.
• [14] Pasman, H.J., Knegtering, B., & Rogers, W.J. (2013). A holistic approach to control process safety risks: Possible ways forward. Reliability Engineerig & System Safety 117, 21-29.
• [15] Shirali, Gh.A., Mohammadfam, I. & Ebrahimipour, V. (2013). A new method for quantitative assessment of resilience engineering by PCA and NT approach: A case study in a process industry. Reliability Engineering & System Safety 119, 2013, 88-94.
• [16] Shirali, G.H.A., Motamedzade, M., Mohammadfam, I., Ebrahimipour, V. & Moghimbeigi, A. (2012). Challenges in building resilience engineering (RE) and adaptive capacity: A field study in a chemical plant. Process Safety and Environmental Protection 90 83-90.
• [17] Steen, R. & Aven, T. (2011). A risk perspective suitable for resilience engineering. Safety Science 49, 292-297.