Add to ORKGPassive fire protection is of fundamental importance for the prevention of catastrophic accidents in the process industry, in particular in the case of escalation effects. In the present work, a methodological approach was developed, aimed at the characterization of the performances of passive protection systems, integrating experimental and numerical analysis. Thermal coatings were first characterized under jet fire conditions on laboratory scale, extending the results to a pilot scale. A finite elements model was implemented in order analyze experimental results and the complicating factors. The model was extended to large scale tanks, determining the optimal coating thickness and effectiveness for several fireproofing materials
Advanced analysis of the performance of Passive Fire Protection (PFP) materials requires an effort b...
Fire scenarios in process industry have a high potential to cause severe asset damage. Fireproofing ...
The oil and gas industry have developed and advanced rapidly over the past few decades and the use o...
Passive fire protection is of fundamental importance for the prevention of catastrophic accidents in...
Accidental fires may impinge equipment and pipes, leading to their thermal collapse and to accident ...
Fires may impact on process and storage equipment causing severe damages and potential accident esca...
Fire is among the most dangerous accident scenarios that may affect process industry. Vessels contai...
Fire is one of the most frequent accident scenarios in process facilities and it may be responsible ...
Accurate modelling of the behaviour of coatings used as Passive Fire Protections (PFP) is essential ...
The installation of fireproofing materials on equipment and structures is a widely applied and effec...
Advanced analysis of the performance of Passive Fire Protection (PFP) materials requires an effort b...
Fire scenarios in process industry have a high potential to cause severe asset damage. Fireproofing ...
The oil and gas industry have developed and advanced rapidly over the past few decades and the use o...
Passive fire protection is of fundamental importance for the prevention of catastrophic accidents in...
Accidental fires may impinge equipment and pipes, leading to their thermal collapse and to accident ...
Fires may impact on process and storage equipment causing severe damages and potential accident esca...
Fire is among the most dangerous accident scenarios that may affect process industry. Vessels contai...
Fire is one of the most frequent accident scenarios in process facilities and it may be responsible ...
Accurate modelling of the behaviour of coatings used as Passive Fire Protections (PFP) is essential ...
The installation of fireproofing materials on equipment and structures is a widely applied and effec...
Advanced analysis of the performance of Passive Fire Protection (PFP) materials requires an effort b...
Fire scenarios in process industry have a high potential to cause severe asset damage. Fireproofing ...
The oil and gas industry have developed and advanced rapidly over the past few decades and the use o...