A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards

A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards Publisher

Khodabakhsh Z ; Dolatabad KM ; Aleahmad M ; Omidi L

Source: Computers and Chemical Engineering Published:2026

Abstract

Fire and explosion accidents pose significant risks in the chemical and process industries. This study develops an integrated modeling framework to assess the vulnerability of oil storage tanks exposed to simultaneous fire and explosion hazards. The methodology integrates fault tree analysis for identifying contributing factors to simultaneous fire and explosion hazards, a hybrid Fuzzy Cognitive Maps-Bayesian Networks (FCM-BN) approach to quantify probabilistic relationships, graph theory metrics for criticality analysis, and Petri net simulations to model domino effect propagation. The FCM-BN model identifies three key contributors to domino effects, including domino effects from adjacent equipment, unprotected electrical equipment, and hot work and maintenance activities near leaks or flammable vapors. Graph theory analysis identifies Tank No. 4 as the most critical unit based on centrality metrics (betweenness and closeness), while Petri net simulations show that adjacent tanks, particularly Tanks No. 8 and No. 5, are highly vulnerable to explosion impacts. The framework provides both theoretical insights into domino effect mechanisms and practical tools for risk management, enabling targeted safety interventions and optimal resource allocation in storage facilities. These findings establish a foundation for preventing domino accidents through evidence-based vulnerability assessment and dynamic propagation modeling. © 2025 Elsevier Ltd

2. Application of Bayesian Networks in Fire Domino Effects Modeling in Gasoline Storage Tanks Area, Journal of Health and Safety at Work (2024)

Experts (# of related papers)

Leila Omidi (2)

Ali Karimi (1)

Style	Citing Format
MLA	Khodabakhsh Z, et al.. "A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards." Computers and Chemical Engineering, vol. 206, no. , 2026, pp. -.
APA	Khodabakhsh Z, Dolatabad KM, Aleahmad M, Omidi L (2026). A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards. Computers and Chemical Engineering, 206(), -.
Chicago	Khodabakhsh Z, Dolatabad KM, Aleahmad M, Omidi L. "A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards." Computers and Chemical Engineering 206, no. (2026): -.
Harvard	Khodabakhsh Z et al. (2026) 'A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards', Computers and Chemical Engineering, 206(), pp. -.
Vancouver	Khodabakhsh Z, Dolatabad KM, Aleahmad M, Omidi L. A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards. Computers and Chemical Engineering. 2026;206():-.
BibTex	@article{ author = {Khodabakhsh Z and Dolatabad KM and Aleahmad M and Omidi L}, title = {A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards}, journal = {Computers and Chemical Engineering}, volume = {206}, number = {}, pages = {-}, year = {2026} }
RIS	TY - JOUR AU - Khodabakhsh Z AU - Dolatabad KM AU - Aleahmad M AU - Omidi L TI - A Petri Net-Based Approach for Modeling and Analyzing the Vulnerability of Storage Tanks Under Simultaneous Fire and Explosion Hazards JO - Computers and Chemical Engineering VL - 206 IS - SP - EP - PY - 2026 ER -

Science Communicator Platform

Authors

Abstract