Add to ORKGSeveral accidents have shown that framed building structures may suffer significant loss of columns if they are relatively close to natural-gas pipelines. As column loss may trigger a progressive collapse of the structure, this kind of risk should be assessed and mitigated. In this paper, a quantitative risk assessment procedure is presented for the estimation of the annual probability of direct structural damage to reinforced concrete (RC) buildings associated with high-pressure natural-gas pipeline explosions. The procedure is based on standard Monte Carlo simulation and takes into account physical features of blast generation and propagation, as well as damage to RC columns. The natural gas jet release process and the flammable cloud si...
Multi-hazard approach represents a convenient way to address structural reliability of a critical in...
The structural integrity of reinforced concrete (RC) structures in blast events is important for cri...
Pipelines are the most efficient method of transporting large quantities of hydrogen, and the low vo...
The failure of natural-gas pipelines often induces heavy damage to buildings. Proper safety distance...
Natural-gas pipeline accidents mostly result in major damage even to buildings located far away. The...
A number of high-profile incidents involving transmission pipelines in urban and environmentally sen...
A number of high-profile incidents involving transmission pipelines in urban and environmentally sen...
In recent years, hydrogen has attracted a significant amount of public attention as an alternative s...
Failure of a pipeline carrying gaseous hydrogen can have several eects, some of which can pose a si...
Terrorist attacks and accidental explosions can induce abnormal loads on building structures, produc...
It is desirable to verify the structural performance based on a multi-hazard approach, taking into a...
The loading and response of structures to explosive blast loading is subject to uncertainty and vari...
Accidental hazards are associated with large uncertainties regarding their occurrence probability, t...
Multi-hazard approach represents a convenient way to address structural reliability of a critical in...
The structural integrity of reinforced concrete (RC) structures in blast events is important for cri...
Pipelines are the most efficient method of transporting large quantities of hydrogen, and the low vo...
The failure of natural-gas pipelines often induces heavy damage to buildings. Proper safety distance...
Natural-gas pipeline accidents mostly result in major damage even to buildings located far away. The...
A number of high-profile incidents involving transmission pipelines in urban and environmentally sen...
A number of high-profile incidents involving transmission pipelines in urban and environmentally sen...
In recent years, hydrogen has attracted a significant amount of public attention as an alternative s...
Failure of a pipeline carrying gaseous hydrogen can have several eects, some of which can pose a si...
Terrorist attacks and accidental explosions can induce abnormal loads on building structures, produc...
It is desirable to verify the structural performance based on a multi-hazard approach, taking into a...
The loading and response of structures to explosive blast loading is subject to uncertainty and vari...
Accidental hazards are associated with large uncertainties regarding their occurrence probability, t...
Multi-hazard approach represents a convenient way to address structural reliability of a critical in...
The structural integrity of reinforced concrete (RC) structures in blast events is important for cri...
Pipelines are the most efficient method of transporting large quantities of hydrogen, and the low vo...