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Flame propagation of boron dust particles in heterogeneous media

Bidabadi, Mehdi / Haghighi, Masud Hassani / Poorfar, Alireza Khoeini / Zadsirjan, Saeedreza

In this paper the combustion of boron dust clouds has been studied numerically in an environment with spatially discrete sources. A thermal model has been generated to estimate the flame propagation speed in various dust concentrations. Furthermore, flame speed as a function of particle diameter has been studied. The results show a very good agreement with the theoretical and experimental data. Also, in this case, a comparison between dust cloud combustion models has been made. Flame front propagation as a function of oxygen mole factor and pressure for certain particle sizes has been studied.

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Flame propagation of boron dust particles in heterogeneous media

Bidabadi, Mehdi / Haghighi, Masud Hassani / Poorfar, Alireza Khoeini / Zadsirjan, Saeedreza

In this paper the combustion of boron dust clouds has been studied numerically in an environment with spatially discrete sources. A thermal model has been generated to estimate the flame propagation speed in various dust concentrations. Furthermore, flame speed as a function of particle diameter has been studied. The results show a very good agreement with the theoretical and experimental data. Also, in this case, a comparison between dust cloud combustion models has been made. Flame front propagation as a function of oxygen mole factor and pressure for certain particle sizes has been studied.

Flame propagation of boron dust particles in heterogeneous media

Bidabadi, Mehdi / Haghighi, Masud Hassani / Poorfar, Alireza Khoeini / Zadsirjan, Saeedreza

In this paper the combustion of boron dust clouds has been studied numerically in an environment with spatially discrete sources. A thermal model has been generated to estimate the flame propagation speed in various dust concentrations. Furthermore, flame speed as a function of particle diameter has been studied. The results show a very good agreement with the theoretical and experimental data. Also, in this case, a comparison between dust cloud combustion models has been made. Flame front propagation as a function of oxygen mole factor and pressure for certain particle sizes has been studied.

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Title:

Flame propagation of boron dust particles in heterogeneous media

Contributors:

Bidabadi, Mehdi (author) / Haghighi, Masud Hassani (author) / Poorfar, Alireza Khoeini (author) / Zadsirjan, Saeedreza (author)

Published in:

Powder Technology ; 262 ; 9-13

Publication date:

2014

Size:

5 Seiten, 24 Quellen

ISSN:

DOI:

https://doi.org/10.1016/j.powtec.2014.04.055

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Flammausbreitung , Bor , Staub , Sauerstoff , experimentelle Daten , Verbrennungsmodell , Druck (Mechanik) , Partikelgröße , heterogenes Material , Teilchen (Partikel)

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