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2024

Journal Article

Causal network topology analysis: Characterizing causal context for risk management

Lin, Yifei, Seligmann, Benjamin J., Micklethwaite, Steven and Lange, David (2024). Causal network topology analysis: Characterizing causal context for risk management. Risk Analysis, 44 (11), 2579-2615. doi: 10.1111/risa.14337

Causal network topology analysis: Characterizing causal context for risk management

2023

Journal Article

Causal Network Topology Analysis (CaNeTA) as a tool for risk assessment in fire safety engineering

Lin, Yifei, Lange, David and Seligmann, Benjamin J. (2023). Causal Network Topology Analysis (CaNeTA) as a tool for risk assessment in fire safety engineering. Fire Safety Journal, 140 103880, 1-9. doi: 10.1016/j.firesaf.2023.103880

Causal Network Topology Analysis (CaNeTA) as a tool for risk assessment in fire safety engineering

2022

Journal Article

The influence of moisture content on dust generation in falling curtains of sugarcane bagasse fiber

Sheehan, M., Antunes, E., Seligmann, B. and Weight, C. (2022). The influence of moisture content on dust generation in falling curtains of sugarcane bagasse fiber. Powder Technology, 397 117001, 117001. doi: 10.1016/j.powtec.2021.11.045

The influence of moisture content on dust generation in falling curtains of sugarcane bagasse fiber

2019

Journal Article

Comparing capability of scenario hazard identification methods by the PIC (Plant-People-Procedure Interaction Contribution) network metric

Seligmann, Benjamin J., Zhao, Jiayi, Marmara, Sophia G., Corbett, Tayla C., Small, Michael, Hassall, Maureen and Boadle, Jesse T. (2019). Comparing capability of scenario hazard identification methods by the PIC (Plant-People-Procedure Interaction Contribution) network metric. Safety Science, 112, 116-129. doi: 10.1016/j.ssci.2018.10.019

Comparing capability of scenario hazard identification methods by the PIC (Plant-People-Procedure Interaction Contribution) network metric

2017

Journal Article

Process hazard analysis, hazard identification and scenario definition: are the conventional tools sufficient, or should and can we do much better?

Cameron, Ian, Mannan, Sam, Nemeth, Erzsébet, Park, Sunhwa, Pasman, Hans, Rogers, William and Seligmann, Benjamin (2017). Process hazard analysis, hazard identification and scenario definition: are the conventional tools sufficient, or should and can we do much better?. Process Safety and Environmental Protection, 110, 53-70. doi: 10.1016/j.psep.2017.01.025

Process hazard analysis, hazard identification and scenario definition: are the conventional tools sufficient, or should and can we do much better?

2016

Journal Article

Template-free synthesis of carbon doped TiO2 mesoporous microplates for enhanced visible light photodegradation

Liu, Juming, Han, Lu, Ma, Huiyan, Tian, Hao, Yang, Jucai, Zhang, Qiancheng, Seligmann, Benjamin J., Wang, Shaobin and Liu, Jian (2016). Template-free synthesis of carbon doped TiO2 mesoporous microplates for enhanced visible light photodegradation. Science Bulletin, 61 (19), 1543-1550. doi: 10.1007/s11434-016-1162-3

Template-free synthesis of carbon doped TiO2 mesoporous microplates for enhanced visible light photodegradation

2016

Journal Article

New visualizations in the development of function and failure in process design and operations

Cameron, Ian T., Nemeth, Erzsebet and Seligmann, Benjamin J. (2016). New visualizations in the development of function and failure in process design and operations. Chemical Engineering Transactions, 48, 661-666. doi: 10.3303/CET1648111

New visualizations in the development of function and failure in process design and operations

2012

Journal Article

A blended hazard identification methodology to support process diagnosis

Seligmann, Benjamin J., Nemeth, Erzsébet, Hangos, Katalin M. and Cameron, Ian T. (2012). A blended hazard identification methodology to support process diagnosis. Journal of Loss Prevention in the Process Industries, 25 (4), 746-759. doi: 10.1016/j.jlp.2012.04.012

A blended hazard identification methodology to support process diagnosis