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Empirical Models of Zones Protecting Against Coal Dust Explosion

Empirical Models of Zones Protecting Against Coal Dust Explosion ReferencesAmyotte P., 2006. Solid inertants and their use in dust explosion prevention and mitigation. Journal of Loss Prevention in the Process Industries, 19 (2-3), 161-173. doi: 10.1016/j.jlp.2005.05.008.10.1016/j.jlp.2005.05.008Branny M., Filipek W., 2008. Numerical Simulation of Ventilation of Blind Drifts with a Force – Exhaust Overlap System in the Condition of Methan and Dust Hazards. Archives of Mining Science 53, (2).Cybulski K., 2004. Assessment criteria of protective zones against coal dust explosions. Archives of Mining Sciences 49 (4), 477-493.Cybulski K., Malich B., 2006. Zabezpieczenia przed wybuchem pyłu węglowego. Mega-Industry. Metalurgia-Energetyka-Górnictwo-Automatyka, 2.Echoff R., 2003. Dust explosion in the Process Industries. Gulf Professional Publishing/Elsevier. ISBN 0-7506-7602-7.Malich B. et al., 2014. Projekt MEZAP, Modelowanie mechanizmu gromadzenia się wybuchowego pyłu węglowego w pobliżu frontów eksploatacyjnych w aspekcie identyfikacji, oceny i niwelacji możliwości powstania jego wybuchu. Zadanie 8. [Modelling mechanism of combustible coal dust deposition in the vicinity of exploitation fronts to identify, assess and eliminate possibility of its explosion. Stage 8]. PBS1/B2/4/2012. Katowice.Prostański D., 2015. Experimental study of coal dust deposition in mine workings with the use of empirical models. Journal of Sustainable Mining, 14, 109-115. 20 Aug 2015. 10.1016/j.jsm.2015.08.015.Prostański et al., 2014. Projekt MEZAP, Modelowanie mechanizmu gromadzenia się wybuchowego pyłu węglowego w pobliżu frontów eksploatacyjnych w aspekcie identyfikacji, oceny i niwelacji możliwości powstania jego wybuchu. Zadanie 7. [Modeling the mechanism of combustible coal dust deposition in the vicinity of exploitation fronts to identify, assess and eliminate possibility of its explosion. Stage 7]. PBS1/B2/4/2012. Gliwice.(Journal of Laws 94 of 2002, item 841 as further amended) Regulation of Minister of Internal Affairs and Administration dated June 14, 2002 on natural hazards in coal mines.(Journal of Laws as of 2002 No. 139 item 1169 as further amended) Regulation dated June 28, 2002 of the Minister of Economy concerning industrial safety and health, traffic regulation and specialized fire-Fighting protective equipment in underground mining facilities. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Archives of Mining Sciences de Gruyter

Empirical Models of Zones Protecting Against Coal Dust Explosion

Archives of Mining Sciences , Volume 62 (3): 9 – Sep 1, 2017

Empirical Models of Zones Protecting Against Coal Dust Explosion

ReferencesAmyotte P., 2006. Solid inertants and their use in dust explosion prevention and mitigation. Journal of Loss Prevention in the Process Industries, 19 (2-3), 161-173. doi: 10.1016/j.jlp.2005.05.008.10.1016/j.jlp.2005.05.008Branny M., Filipek W., 2008. Numerical Simulation of Ventilation of Blind Drifts with a Force – Exhaust Overlap System in the Condition of Methan and Dust Hazards. Archives of Mining Science 53, (2).Cybulski K., 2004. Assessment criteria of protective zones against coal dust explosions. Archives of Mining Sciences 49 (4), 477-493.Cybulski K., Malich B., 2006. Zabezpieczenia przed wybuchem pyłu węglowego. Mega-Industry. Metalurgia-Energetyka-Górnictwo-Automatyka, 2.Echoff R., 2003. Dust explosion in the Process Industries. Gulf Professional Publishing/Elsevier. ISBN 0-7506-7602-7.Malich B. et al., 2014. Projekt MEZAP, Modelowanie mechanizmu gromadzenia się wybuchowego pyłu węglowego w pobliżu frontów eksploatacyjnych w aspekcie identyfikacji, oceny i niwelacji możliwości powstania jego wybuchu. Zadanie 8. [Modelling mechanism of combustible coal dust deposition in the vicinity of exploitation fronts to identify, assess and eliminate possibility of its explosion. Stage 8]. PBS1/B2/4/2012. Katowice.Prostański D., 2015. Experimental study of coal dust deposition in mine workings with the use of empirical models. Journal of Sustainable Mining, 14, 109-115. 20 Aug 2015. 10.1016/j.jsm.2015.08.015.Prostański et al., 2014. Projekt MEZAP, Modelowanie mechanizmu gromadzenia się wybuchowego pyłu węglowego w pobliżu frontów eksploatacyjnych w aspekcie identyfikacji, oceny i niwelacji możliwości powstania jego wybuchu. Zadanie 7. [Modeling the mechanism of combustible coal dust deposition in the vicinity of exploitation fronts to identify, assess and eliminate possibility of its explosion. Stage 7]. PBS1/B2/4/2012. Gliwice.(Journal of Laws 94 of 2002, item 841 as further amended) Regulation of Minister of Internal Affairs and Administration dated June 14, 2002 on natural hazards in coal mines.(Journal of Laws as of 2002 No. 139 item 1169 as further amended) Regulation dated June 28, 2002 of the Minister of Economy concerning industrial safety and health, traffic regulation and specialized fire-Fighting protective equipment in underground mining facilities.
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Publisher
de Gruyter
Copyright
© 2017 Dariusz Prostański, published by De Gruyter Open
ISSN
1689-0469
eISSN
1689-0469
DOI
10.1515/amsc-2017-0044
Publisher site
See Article on Publisher Site

Abstract

ReferencesAmyotte P., 2006. Solid inertants and their use in dust explosion prevention and mitigation. Journal of Loss Prevention in the Process Industries, 19 (2-3), 161-173. doi: 10.1016/j.jlp.2005.05.008.10.1016/j.jlp.2005.05.008Branny M., Filipek W., 2008. Numerical Simulation of Ventilation of Blind Drifts with a Force – Exhaust Overlap System in the Condition of Methan and Dust Hazards. Archives of Mining Science 53, (2).Cybulski K., 2004. Assessment criteria of protective zones against coal dust explosions. Archives of Mining Sciences 49 (4), 477-493.Cybulski K., Malich B., 2006. Zabezpieczenia przed wybuchem pyłu węglowego. Mega-Industry. Metalurgia-Energetyka-Górnictwo-Automatyka, 2.Echoff R., 2003. Dust explosion in the Process Industries. Gulf Professional Publishing/Elsevier. ISBN 0-7506-7602-7.Malich B. et al., 2014. Projekt MEZAP, Modelowanie mechanizmu gromadzenia się wybuchowego pyłu węglowego w pobliżu frontów eksploatacyjnych w aspekcie identyfikacji, oceny i niwelacji możliwości powstania jego wybuchu. Zadanie 8. [Modelling mechanism of combustible coal dust deposition in the vicinity of exploitation fronts to identify, assess and eliminate possibility of its explosion. Stage 8]. PBS1/B2/4/2012. Katowice.Prostański D., 2015. Experimental study of coal dust deposition in mine workings with the use of empirical models. Journal of Sustainable Mining, 14, 109-115. 20 Aug 2015. 10.1016/j.jsm.2015.08.015.Prostański et al., 2014. Projekt MEZAP, Modelowanie mechanizmu gromadzenia się wybuchowego pyłu węglowego w pobliżu frontów eksploatacyjnych w aspekcie identyfikacji, oceny i niwelacji możliwości powstania jego wybuchu. Zadanie 7. [Modeling the mechanism of combustible coal dust deposition in the vicinity of exploitation fronts to identify, assess and eliminate possibility of its explosion. Stage 7]. PBS1/B2/4/2012. Gliwice.(Journal of Laws 94 of 2002, item 841 as further amended) Regulation of Minister of Internal Affairs and Administration dated June 14, 2002 on natural hazards in coal mines.(Journal of Laws as of 2002 No. 139 item 1169 as further amended) Regulation dated June 28, 2002 of the Minister of Economy concerning industrial safety and health, traffic regulation and specialized fire-Fighting protective equipment in underground mining facilities.

Journal

Archives of Mining Sciencesde Gruyter

Published: Sep 1, 2017

References