The Trigger Mechanism of Vapor Explosion

Abe, Yutaka; Nariai, Hideki; Hamada, Yukihiro

doi:10.1080/18811248.2002.9715268

Cited by 29 publications

(2 citation statements)

References 17 publications

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“…However, research on the vapor explosions has been conducted mainly on nuclear power plants. Procedure of the vapor explosion is addressed as four steps [1][2][3][4][5][6][7][8][9] like below.…”

Section: Introductionmentioning

confidence: 99%

Vapor explosion in steel mill industries: Chemical composition analysis on molten slag and coolant

Cho

Park

Chae

et al. 2020

Process Safety Progress

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It is important to prevent vapor explosion for steel mill industries for the reason that explosions can produce overpressure which cause buildings and facilities to rupture.The spontaneous vapor explosion occurs when a molten slag contacts with coolant.In this research, the molten slag which includes more than 10 chemical compositions produced in actual steel mill industries is employed. Three types of coolant were

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Section: Introductionmentioning

confidence: 99%

Vapor explosion in steel mill industries: Chemical composition analysis on molten slag and coolant

Cho

Park

Chae

et al. 2020

Process Safety Progress

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show abstract

“…This revealed only a substantial part of the reoccurring vapor explosions caused by molten slag. Vapor explosions are a physical phenomenon in which explosive boiling occurs when heat contained in molten slag is rapidly converted to gas, and although steel mills make efforts to prevent such a phenomenon, one or more vapor explosion accidents cause fatalities and property damage every year [1][2][3].…”

Section: Introductionmentioning

confidence: 99%

Risk Factors of Vapor Explosion of Molten Slag in Slag Yard for Steelworks

Bong

2020

IJESNR

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The risk of vapor explosions has always existed in steelworks that deal with a large amount of high-temperature molten slag. Previous studies on vapor explosions caused by the direct contact of high-temperature molten slag with cooling water were mainly focused on nuclear power plants, whereas there is hardly any research on vapor explosions concerning molten slag in steelworks. Therefore, there is a necessity to understand the causes of vapor explosions occurring during the work process at slag yards. This study analyzed risk factors of potential vapor explosions during the work process at slag yards in steelworks and conducted a small-scale experiment based on field conditions. The experiment found the risk factors that cause vapor explosions at the cooling stage and loading stages of the process and found that spontaneous vapor explosions occurred depending on the temperature of cooling water for molten slag and the contained salinity. Thus, it was confirmed that the significant causes of vapor explosions in the steel industry were the salinity of the cooling water concentrated by seawater desalination and high-water temperature at 50°C caused by the circulation structure of cooling water.

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Observations of initiation stage of spontaneous vapor explosions for droplet scale

Takashima

2007

Heat Trans. Asian Res.

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In this study, the initiation stage of spontaneous vapor explosions generated by single droplets of molten tin submerged in water was investigated using a highspeed video camera operated with a reflected light system. Photographs of the formation process of vapor film, the process of vapor film disturbance, and the initiation process of the vapor explosions for different masses of molten tin and different nozzle diameters were obtained. The results demonstrate that partial thermal interaction between tin and water does not cause a vapor explosion with fragmentation. The vapor film disappears locally during the formation of the vapor film around the hot liquid droplet. Direct contact between the hot molten tin surface and water is thereby generated. However, the local disappearance of the vapor film does not progress and the vapor film is reconstructed. A vapor explosion occurs when the vapor film collapses at the local area of the bottom or edge of the disk-shaped droplet.

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The Trigger Mechanism of Vapor Explosion

Cited by 29 publications

References 17 publications

Vapor explosion in steel mill industries: Chemical composition analysis on molten slag and coolant

Vapor explosion in steel mill industries: Chemical composition analysis on molten slag and coolant

Risk Factors of Vapor Explosion of Molten Slag in Slag Yard for Steelworks

Observations of initiation stage of spontaneous vapor explosions for droplet scale

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