Explosion mitigation of methane‐air mixture in combined application of inert gas and ABC dry powders in a closed compartment

Li, Manhou; Xu, Jingchao; Quan, Li; Wang, Changjian; Wang, Baozhen; Jiang, Jiacheng

doi:10.1002/prs.12101

Cited by 6 publications

(4 citation statements)

References 41 publications

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“…Via a vertical combustion tube, Zhao et al [10] examined the deflagration of methane, coal dust, and ABC dry powder. Through experimentation, Li et al [11] analyzed the CO 2 and ultrafine ABC dry powder explosion suppression method. Through experimental quantification, Song et al [12] investigated the impact of sedimentary rock powder volume on explosion overpressure, temperature, and flame velocity.…”

Section: Introductionmentioning

confidence: 99%

Studying the Effects of Wave Dissipation Structure and Multiple Size Diffusion Chambers on Explosion Shock Wave Propagation

Liu,

Xu,

et al. 2023

Fire

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Explosion chambers are crucial to the technology used to prevent coal mine gas explosions. Investigating the shock wave propagation law at various coal mine tunnel cross-sections helps ensure mine safety. A self-built, highly explosive experimental setup was used to conduct empirical research on straight tubes, eight sizes of single-stage explosion chambers, and multi-stage tandem explosion chambers. Ansys Fluent numerical simulation software constructed five different tandem explosion chamber models. The wave dissipation efficiency of various types of explosion chambers was calculated, the propagation law and process of shock waves across multiple explosion chambers were examined, and the best size and type of explosion chambers were summarized to increase the wave dissipation efficiency of single-stage explosion chambers. Gun silencers inspired these models. The findings indicate that the three-stage tandem explosion chamber is the best diffusion tandem combination form, the 60° silencer-type explosion chamber is the best single-stage explosion chamber modification program, and the 500 mm × 500 mm × 200 mm explosion chamber is the best single-stage explosion chamber.

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Section: Introductionmentioning

confidence: 99%

Studying the Effects of Wave Dissipation Structure and Multiple Size Diffusion Chambers on Explosion Shock Wave Propagation

Liu,

Xu,

et al. 2023

Fire

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“…Powders, inorganic salts, and fluorinated alkanes are other common chemical antiknocks. Scholars frequently undertake methane explosion suppression studies with a mixture of several chemicals in order to increase the efficacy of explosion suppression 9 . Ingram et al 10 investigated the use of nitrogen and an ultrafine water mist to control hydrogen explosions in a synergistic manner.…”

Section: Introductionmentioning

confidence: 99%

“…Scholars frequently undertake methane explosion suppression studies with a mixture of several chemicals in order to increase the efficacy of explosion suppression. 9 Ingram et al 10 investigated the use of nitrogen and an ultrafine water mist to control hydrogen explosions in a synergistic manner. Their findings revealed that nitrogen and ultrafine water mist might have a substantial impact on the pace of flame propagation and pressure of a hydrogen explosion.…”

Section: Introductionmentioning

confidence: 99%

Explosion mitigation of methane–air mixture in combined application of HFC‐227ea/CO₂ and ultrafine water mist in the pipeline

Yang,

Jia,

et al. 2023

Process Safety Progress

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In order to reduce the power of methane explosion in natural gas pipelines and effectively improve the explosion suppression efficiency of a single explosion suppressant, we carry out the explosion suppression of HFC‐227ea/carbon dioxide mixed gas as well as mixed gas/ultrafine water mist through a self‐built methane explosion suppression experimental platform. Based on the changes in parameters such as explosion overpressure, flame propagation velocity, and flame propagation structure, the coupling mechanism of methane explosion suppression between mixed gases and between mixed gases and ultrafine water mist is revealed, which provides scientific support for promoting the development of methane explosion suppression technology. The experimental results show that when the mixed gas HFC‐227ea/carbon dioxide and ultrafine water mist synergistically suppresses methane explosion, the addition of the mixed gas can effectively improve the suppression effect of ultrafine water mist on methane explosion.

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“…The results showed that an inhibitor composed of NaHCO 3 (BC) powder/inert gas had better inhibition performance in comparison to an inhibitor composed of NH 4 H 2 PO 4 (ABC) powder/inert gas. Li et al 23 used the combination of an inert gas and ABC powder to suppress methane explosion. On the basis of the flame morphology, flame propagation velocity, explosion pressure, and booster rate, the explosion suppression mechanism was explained by the physical and chemical aspects.…”

Section: Introductionmentioning

confidence: 99%

Experimental Study on Two-Phase Explosion Suppression of Gas/Pulverized Coal by Explosion Suppressant

Liu

2022

ACS Omega

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Pulverized coal is widely distributed in coal mine roadways, which can enhance the power of a gas explosion. Explosion suppression technology can effectively reduce the explosion power. At present, rock powder shed, a water bag, and ABC powder are widely used in most coal mine explosion suppression technologies. In order to verify the explosion suppression effect of rock powder, water, and ABC powder in the pulverized coal environment, a series of experiments on a suppressing gas/pulverized coal two-phase explosion were carried out with a self-built large-scale gas explosion experimental system. The experimental study in this paper can provide some reference for the improvement of explosion suppression technology in coal mines. In this paper, through the suppression of a secondary explosion, flame, and impact of pulverized coal, the explosion suppression effects of three kinds of explosion suppressants are comprehensively analyzed. The results show that rock powder has a good inhibitory effect on a secondary explosion and flame of pulverized coal, and water has a good inhibitory effect on the shock wave. ABC powder has the best explosion suppression effect; the inhibition of a secondary explosion of pulverized coal is 4.17 times that of rock powder, the inhibition of flame is 4.28 times that of rock powder, and the inhibition of shock wave is 2.24 times that of water.

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Explosion mitigation of methane‐air mixture in combined application of inert gas and ABC dry powders in a closed compartment

Cited by 6 publications

References 41 publications

Studying the Effects of Wave Dissipation Structure and Multiple Size Diffusion Chambers on Explosion Shock Wave Propagation

Studying the Effects of Wave Dissipation Structure and Multiple Size Diffusion Chambers on Explosion Shock Wave Propagation

Explosion mitigation of methane–air mixture in combined application of HFC‐227ea/CO₂ and ultrafine water mist in the pipeline

Experimental Study on Two-Phase Explosion Suppression of Gas/Pulverized Coal by Explosion Suppressant

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Explosion mitigation of methane‐air mixture in combined application of inert gas and ABC dry powders in a closed compartment

Cited by 6 publications

References 41 publications

Studying the Effects of Wave Dissipation Structure and Multiple Size Diffusion Chambers on Explosion Shock Wave Propagation

Studying the Effects of Wave Dissipation Structure and Multiple Size Diffusion Chambers on Explosion Shock Wave Propagation

Explosion mitigation of methane–air mixture in combined application of HFC‐227ea/CO2 and ultrafine water mist in the pipeline

Experimental Study on Two-Phase Explosion Suppression of Gas/Pulverized Coal by Explosion Suppressant

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Explosion mitigation of methane–air mixture in combined application of HFC‐227ea/CO₂ and ultrafine water mist in the pipeline