Prediction for vented explosions in chambers with multiple obstacles

Dal Jae Park; Young Soon Lee; Anthony Roland Green

doi:10.1016/j.jhazmat.2007.11.052

Prediction for vented explosions in chambers with multiple obstacles

Dal Jae Park
, Young Soon Lee
, Anthony Roland Green

Dept. of Safety Engineering

Research output: Contribution to journal › Article › peer-review

53 Scopus citations

Abstract

The predictive ability between existing models on explosion venting, such as the NFPA, Molkov and Yao equations, was examined against experimental data of peak pressures obtained in various chambers with internal obstacles. The NFPA equation yielded the highest overpressures in most cases. The Molkov and Yao equations obtained much better agreement with experiments. However, the statistical diagnosis of the data showed an underprediction of the pressures. This is undesirable for designing calculations where some margin of safety is preferable. A new empirical model derived for characterising chambers with internal obstacles correlated well with the data. In addition the new equation was further validated against a dataset published from the literature and also gave a good correlation.

Original language	English
Pages (from-to)	183-192
Number of pages	10
Journal	Journal of Hazardous Materials
Volume	155
Issue number	1-2
DOIs	https://doi.org/10.1016/j.jhazmat.2007.11.052
State	Published - 30 Jun 2008

Keywords

Explosion venting
Obstacle types
Pressure
Vent to volume ratio

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10.1016/j.jhazmat.2007.11.052

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title = "Prediction for vented explosions in chambers with multiple obstacles",

abstract = "The predictive ability between existing models on explosion venting, such as the NFPA, Molkov and Yao equations, was examined against experimental data of peak pressures obtained in various chambers with internal obstacles. The NFPA equation yielded the highest overpressures in most cases. The Molkov and Yao equations obtained much better agreement with experiments. However, the statistical diagnosis of the data showed an underprediction of the pressures. This is undesirable for designing calculations where some margin of safety is preferable. A new empirical model derived for characterising chambers with internal obstacles correlated well with the data. In addition the new equation was further validated against a dataset published from the literature and also gave a good correlation.",

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T1 - Prediction for vented explosions in chambers with multiple obstacles

AU - Park, Dal Jae

AU - Lee, Young Soon

AU - Green, Anthony Roland

PY - 2008/6/30

Y1 - 2008/6/30

N2 - The predictive ability between existing models on explosion venting, such as the NFPA, Molkov and Yao equations, was examined against experimental data of peak pressures obtained in various chambers with internal obstacles. The NFPA equation yielded the highest overpressures in most cases. The Molkov and Yao equations obtained much better agreement with experiments. However, the statistical diagnosis of the data showed an underprediction of the pressures. This is undesirable for designing calculations where some margin of safety is preferable. A new empirical model derived for characterising chambers with internal obstacles correlated well with the data. In addition the new equation was further validated against a dataset published from the literature and also gave a good correlation.

AB - The predictive ability between existing models on explosion venting, such as the NFPA, Molkov and Yao equations, was examined against experimental data of peak pressures obtained in various chambers with internal obstacles. The NFPA equation yielded the highest overpressures in most cases. The Molkov and Yao equations obtained much better agreement with experiments. However, the statistical diagnosis of the data showed an underprediction of the pressures. This is undesirable for designing calculations where some margin of safety is preferable. A new empirical model derived for characterising chambers with internal obstacles correlated well with the data. In addition the new equation was further validated against a dataset published from the literature and also gave a good correlation.

KW - Explosion venting

KW - Obstacle types

KW - Pressure

KW - Vent to volume ratio

UR - https://www.scopus.com/pages/publications/42749085851

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M3 - Article

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SN - 0304-3894

VL - 155

SP - 183

EP - 192

JO - Journal of Hazardous Materials

JF - Journal of Hazardous Materials

IS - 1-2

ER -

Prediction for vented explosions in chambers with multiple obstacles

Abstract

Keywords

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