Computational Simulation of Methane Ignition in Enclosed Spaces

Florea, Gheorghe Daniel; Petrilean, Dan Codruț

doi:10.2478/minrv-2024-0006

Mining Revue

2024

DOI: 10.2478/minrv-2024-0006

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Computational Simulation of Methane Ignition in Enclosed Spaces

Gheorghe Daniel Florea,

Dan Codruț Petrilean

Abstract: In the research on gas explosions, the emphasis has been and continues to be primarily on physical experiments conducted on various scaled-down models. Building models at actual size is often a resource-intensive task in terms of materials, time, and human resources. The rapid advancement of computational techniques has allowed, among other things, the transfer of gas explosion research into the virtual environment. For validating computerized simulations of this kind, physical experiments and specialized lite… Show more

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Physical Experiments Regarding the Linear Propagation of Hydrogen Explosions in Enclosed Spaces

Florea,

Vlasin,

Simon-Marinica

et al. 2024

SGEM International Multidisciplinary Scientific GeoConference� EXPO Proceedings

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Hydrogen, known for its high flammability and potential explosive characteristics, presents significant challenges in safety engineering, particularly in enclosed spaces where explosions can lead to catastrophic consequences. This paper presents the results of physical experiments conducted to investigate the linear propagation of hydrogen explosions within confined environments. The experiments were designed to simulate real-world scenarios and assess the factors influencing the extent and characteristics of explosion propagation. Various parameters including initial pressure, hydrogen concentration, confinement geometry, and ignition source location were systematically varied to analyze their effects on explosion dynamics. The experimental setup involved controlled release of hydrogen into enclosed spaces followed by ignition under controlled conditions, utilizing a series of friable obstacles. High-speed imaging with use of Schlieren techniques, pressure measurements, and post-explosion analysis techniques were employed to characterize the explosion phenomena. The findings provide valuable insights into the mechanisms governing hydrogen explosion propagation in confined spaces and offer implications for enhancing safety measures and designing mitigation strategies in hydrogen-related applications. This research contributes to the advancement of knowledge in the field of explosion dynamics and provides a basis for further studies aimed at improving safety standards in hydrogen storage, transportation, and utilization systems.

show abstract

Physical Experiments Regarding the Linear Propagation of Hydrogen Explosions in Enclosed Spaces

Florea,

Vlasin,

Simon-Marinica

et al. 2024

SGEM International Multidisciplinary Scientific GeoConference� EXPO Proceedings

View full text Add to dashboard Cite

show abstract

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Computational Simulation of Methane Ignition in Enclosed Spaces

Cited by 1 publication

References 10 publications

Physical Experiments Regarding the Linear Propagation of Hydrogen Explosions in Enclosed Spaces

Physical Experiments Regarding the Linear Propagation of Hydrogen Explosions in Enclosed Spaces

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