Effects of inert particles with high specific surface on ignition and flame propagation in dust/air mixtures

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Standard

Effects of inert particles with high specific surface on ignition and flame propagation in dust/air mixtures. / Hüttenbrenner, Katja; Kern, Hannes; Tomasch, Stefanie et al.
Proceedings of the Ninth International Seminar on Fire and Explosion Hazards: Volume 1. Saint Petersburg, 2019. p. 376-385.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Harvard

Hüttenbrenner, K, Kern, H, Tomasch, S & Raupenstrauch, H 2019, Effects of inert particles with high specific surface on ignition and flame propagation in dust/air mixtures. in Proceedings of the Ninth International Seminar on Fire and Explosion Hazards: Volume 1. Saint Petersburg, pp. 376-385, Ninth International Seminar on Fire and Explosion Hazards, St. Petersburg, Russian Federation, 21/04/19.

APA

Hüttenbrenner, K., Kern, H., Tomasch, S., & Raupenstrauch, H. (2019). Effects of inert particles with high specific surface on ignition and flame propagation in dust/air mixtures. In Proceedings of the Ninth International Seminar on Fire and Explosion Hazards: Volume 1 (pp. 376-385).

Vancouver

Hüttenbrenner K, Kern H, Tomasch S, Raupenstrauch H. Effects of inert particles with high specific surface on ignition and flame propagation in dust/air mixtures. In Proceedings of the Ninth International Seminar on Fire and Explosion Hazards: Volume 1. Saint Petersburg. 2019. p. 376-385

Author

Hüttenbrenner, Katja ; Kern, Hannes ; Tomasch, Stefanie et al. / Effects of inert particles with high specific surface on ignition and flame propagation in dust/air mixtures. Proceedings of the Ninth International Seminar on Fire and Explosion Hazards: Volume 1. Saint Petersburg, 2019. pp. 376-385

Bibtex - Download

@inproceedings{92bc153f732249d3940be3741ab1d681,
title = "Effects of inert particles with high specific surface on ignition and flame propagation in dust/air mixtures",
abstract = "Purpose of the presented investigations was to identify the influence of specific surface of porous inert particles on ignition and flame propagation in combustible dust/air mixtures. It is commonly known that inert dusts are able to reduce the criticality of dust/air mixtures significantly in terms of ignitability and explosion severity. Different non-combustible materials like rock dust or chalk dust are used for dust explosion prevention. In order to assess the influence of the specific particle surface on the effectiveness of inert material, tests on the ignitability of different dust/air mixtures have been carried out. Experiments have been conducted with Lycopodium Clavatum as combustible dust. Lycopodium Clavatum was mixed with inert dusts with high and low specific surface area. As material with high specific surface Clinoptilolith, a natural aluminosilicate, was used. Clinoptilolith was compared to ceramic beads with indifferent particle sizes. In terms of benchmarking, Clinoptilolith was also compared to different other inerting material like dry chemicals for fire extinguishing purposes. To study the influence of initial humidity on the inerting effectiveness of Clinoptilolith, the material was tested at different grades of humidity. Tests have been carried out with the Kuhner MIKE III Apparatus, the 20-L-Siwek Chamber and a Tube reactor for flame speed measurements. The experimental results were compared to CFD simulations using an OpenFOAM{\textregistered} model.",
keywords = "additives, combustible dust, ignition, inert particle",
author = "Katja H{\"u}ttenbrenner and Hannes Kern and Stefanie Tomasch and Harald Raupenstrauch",
year = "2019",
month = apr,
day = "21",
language = "English",
isbn = "978-5-7422-6496-5",
pages = "376--385",
booktitle = "Proceedings of the Ninth International Seminar on Fire and Explosion Hazards",
note = "Ninth International Seminar on Fire and Explosion Hazards ; Conference date: 21-04-2019 Through 26-04-2019",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Effects of inert particles with high specific surface on ignition and flame propagation in dust/air mixtures

AU - Hüttenbrenner, Katja

AU - Kern, Hannes

AU - Tomasch, Stefanie

AU - Raupenstrauch, Harald

PY - 2019/4/21

Y1 - 2019/4/21

N2 - Purpose of the presented investigations was to identify the influence of specific surface of porous inert particles on ignition and flame propagation in combustible dust/air mixtures. It is commonly known that inert dusts are able to reduce the criticality of dust/air mixtures significantly in terms of ignitability and explosion severity. Different non-combustible materials like rock dust or chalk dust are used for dust explosion prevention. In order to assess the influence of the specific particle surface on the effectiveness of inert material, tests on the ignitability of different dust/air mixtures have been carried out. Experiments have been conducted with Lycopodium Clavatum as combustible dust. Lycopodium Clavatum was mixed with inert dusts with high and low specific surface area. As material with high specific surface Clinoptilolith, a natural aluminosilicate, was used. Clinoptilolith was compared to ceramic beads with indifferent particle sizes. In terms of benchmarking, Clinoptilolith was also compared to different other inerting material like dry chemicals for fire extinguishing purposes. To study the influence of initial humidity on the inerting effectiveness of Clinoptilolith, the material was tested at different grades of humidity. Tests have been carried out with the Kuhner MIKE III Apparatus, the 20-L-Siwek Chamber and a Tube reactor for flame speed measurements. The experimental results were compared to CFD simulations using an OpenFOAM® model.

AB - Purpose of the presented investigations was to identify the influence of specific surface of porous inert particles on ignition and flame propagation in combustible dust/air mixtures. It is commonly known that inert dusts are able to reduce the criticality of dust/air mixtures significantly in terms of ignitability and explosion severity. Different non-combustible materials like rock dust or chalk dust are used for dust explosion prevention. In order to assess the influence of the specific particle surface on the effectiveness of inert material, tests on the ignitability of different dust/air mixtures have been carried out. Experiments have been conducted with Lycopodium Clavatum as combustible dust. Lycopodium Clavatum was mixed with inert dusts with high and low specific surface area. As material with high specific surface Clinoptilolith, a natural aluminosilicate, was used. Clinoptilolith was compared to ceramic beads with indifferent particle sizes. In terms of benchmarking, Clinoptilolith was also compared to different other inerting material like dry chemicals for fire extinguishing purposes. To study the influence of initial humidity on the inerting effectiveness of Clinoptilolith, the material was tested at different grades of humidity. Tests have been carried out with the Kuhner MIKE III Apparatus, the 20-L-Siwek Chamber and a Tube reactor for flame speed measurements. The experimental results were compared to CFD simulations using an OpenFOAM® model.

KW - additives

KW - combustible dust

KW - ignition

KW - inert particle

M3 - Conference contribution

SN - 978-5-7422-6496-5

SP - 376

EP - 385

BT - Proceedings of the Ninth International Seminar on Fire and Explosion Hazards

CY - Saint Petersburg

T2 - Ninth International Seminar on Fire and Explosion Hazards

Y2 - 21 April 2019 through 26 April 2019

ER -