Abstract
Failure of a pipeline carrying gaseous hydrogen can have several effects, some of which can pose a significant threat of harm to people and damage to buildings in its immediate proximity. This paper presents a probabilistic risk assessment procedure for the estimation of damage to people and buildings endangered by high-pressure hydrogen pipeline explosions. Such a procedure provides an evaluation of annual probability of damage to people and buildings under an extreme event using a combination of the conditional probability of damage triggered by an explosion and the probability that the explosion occurs as a consequence of the pipeline failure. The release of hydrogen is simulated using the LimitState:SLAB model and the size of the hydrogen-air cloud in the flammability range is evaluated, then overpressure and impulse generated by the blast are evaluated through the Netherland Organization for Applied Scientific Research (TNO) model, while explosion effects on people and buildings are estimated through Probit equations and pressure–impulse diagrams. As for people, both direct and indirect effects of overpressure events are taken into account. For buildings, a comparison of the damage to different types of buildings (i.e., buildings made of reinforced concrete and buildings of tuff stone masonry) is also made. The probabilistic procedure presented may be used for designing a new hydrogen pipeline network and will be an advantageous tool for safe management of H2 gas pipelines.
Highlights
The growing demand for energy and the depletion of traditional energy sources, added to the need for increasing sustainable development in order to reduce environmental pollution, have made hydrogen a possible protagonist in today’s society
This paper presents a probabilistic risk assessment procedure for the estimation of damage to people and buildings endangered by high-pressure hydrogen pipeline explosions
Such a procedure provides an evaluation of annual probability of damage to people and buildings under an extreme event using a combination of the conditional probability of damage triggered by an explosion and the probability that the explosion occurs as a consequence of the pipeline failure
Summary
The growing demand for energy and the depletion of traditional energy sources, added to the need for increasing sustainable development in order to reduce environmental pollution, have made hydrogen a possible protagonist in today’s society. Hydrogen represents an inexhaustible source as an energy carrier, since it can stem from a variety of sources, both traditional and alternative ones. Hydrogen plays a key role for sustainable development due to the fact that its combustion does not produce any pollution agents, especially greenhouse gases that lead to an increase in global temperature. Regarding hydrogen and its production, the production plant distribution in the world is shown in Table 1 [1]. Linde’s Global Hydrogen Business announced that they will construct a USD
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