Input-output Inoperability Model for the risk analysis of eco-industrial parks

Autor: Elizaveta Kuznetsova, Romain Farel, Enrico Zio, Rim Louhichi
Přispěvatelé: Department of Industrial and Systems Engineering, National University of Singapore (NUS), Paris Saclay Efficacité Energétique (PS2E), Chaire Sciences des Systèmes et Défis Energétiques EDF/ECP/Supélec (SSEC), Ecole Centrale Paris-Ecole Supérieure d'Electricité - SUPELEC (FRANCE)-CentraleSupélec-EDF R&D (EDF R&D), EDF (EDF)-EDF (EDF), Dipartimento di Energia [Milano], Politecnico di Milano [Milan] (POLIMI), Laboratoire Génie Industriel - EA 2606 (LGI), CentraleSupélec, Dipartimento di Energia [Milano] (DENG)
Jazyk: angličtina
Rok vydání: 2017
Předmět:
Risk
Risk analysis
Service (systems architecture)
020209 energy
Strategy and Management
media_common.quotation_subject
Strategy and Management1409 Tourism
0211 other engineering and technologies
02 engineering and technology
Industrial and Manufacturing Engineering
Critical infrastructure
[SPI]Engineering Sciences [physics]
Industrial symbiosis
0202 electrical engineering
electronic engineering
information engineering
Eco-industrial park
Economics
Renewable Energy
Resilience (network)
Influence analysis
ComputingMilieux_MISCELLANEOUS
General Environmental Science
media_common
Impact analysis
Input-output inoperability model
Resilience
Renewable Energy
Sustainability and the Environment
2300
Strategy and Management1409 Tourism
Leisure and Hospitality Management
021110 strategic
defence & security studies
Sustainability and the Environment
Leisure and Hospitality Management
Interdependence
Risk analysis (engineering)
13. Climate action
Software deployment
Zdroj: Journal of Cleaner Production
Journal of Cleaner Production, Elsevier, 2017, 164, pp.779-792. ⟨10.1016/j.jclepro.2017.06.250⟩
ISSN: 0959-6526
DOI: 10.1016/j.jclepro.2017.06.250⟩
Popis: An Eco-Industrial Park (EIP) is formed by a set of manufacturing and service businesses located together in a bounded geographic area and interconnected in Industrial Symbiosis (IS), aiming at enhancing environmental, economic and social performances of the EIP itself and its individual Industrial Actors (IA). Connections of IA to Critical Infrastructures (CI), such as for electricity and water supply, together with the newly created IS interconnections make EIP vulnerable to disruptive events propagation, whereby a failure in a CI outside EIP may propagate to EIP and its IA in a cascading effect. The interdependencies created by the interconnections of various CI and IS in the EIP should be closely investigated in order to predict the behaviour of the interconnected EIP, to evaluate the risk of disruptive events propagation and propose mitigation solutions. Different approaches exists for this, requiring different levels of details, model sophistication and complexity, data for parameters estimation. The present paper focuses on the expert-based Input-output Inoperability Model (IIM) and proposes a methodology for its complete deployment on the existing EIP of Kalundborg. The results obtained from the application to this EIP can be used to provide guidance for establishing measures of resilience to disruptive events, in terms of possible technological solutions and adjustment strategies to increase overall EIP resilience.
Databáze: OpenAIRE
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