Dust Explosion Literature

Fundamental Concepts

  • R. K. Eckhoff, “Influence of dispersibility and coagulation on the dust explosion risk presented by powders consisting of nm-particles,” Powder technology, vol. 239, pp. 223-230, 2013.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Eckhoff2013,
    title={Influence of dispersibility and coagulation on the dust explosion risk presented by powders consisting of nm-particles},
    author={Eckhoff, R.K.},
    journal={Powder Technology},
    volume={239},
    pages={223--230},
    year={2013},
    link ={http://www.sciencedirect.com/science/article/pii/S0032591013001150},
    summary = {http://www.mydustexplosionresearch.com/influence-of-dispersibility-and-coagulation-dust-explosion-risk-presented-powders-consisting-nm-particles-summary},
    }
  • C. Proust, “A few fundamental aspects about ignition and flame propagation in dust clouds,” Journal of loss prevention in the process industries, vol. 19, p. 104–120, 2006.
    [Bibtex]
    @ARTICLE{Proust2006,
    title={A Few Fundamental Aspects About Ignition and Flame Propagation in Dust Clouds},
    author={Proust, Ch.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={19},
    pages={104–120},
    year={2006},
    }
  • R. K. Eckhoff, “Current status and expected future trends in dust explosion research,” Journal of loss prevention in the process industries, vol. 18, pp. 225-237, 2005.
    [Bibtex]
    @ARTICLE{Eckhoff2005,
    title={Current status and expected future trends in dust explosion research},
    author={Eckhoff, R.K.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={18},
    pages={225--237},
    year={2005},
    }
  • A. E. Dahoe, J. F. Zavenbergen, S. M. Lemkowitz, and B. Scarlett, “Dust explosion in spherical vessels: the role of flame thickness in the validity of the `cube-root law’.,” Journal of loss prevention in the process industries, vol. 9, pp. 33-44, 1996.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Dahoe1996,
    title={Dust explosion in spherical vessels: the role of flame thickness in the validity of the `cube-root law'.},
    author={Dahoe, A.E. and Zavenbergen, J.F. and Lemkowitz, S.M. and Scarlett, B.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={9},
    pages={33--44},
    year={1996},
    link ={http://www.sciencedirect.com/science/article/pii/0950423095000542},
    summary = {http://www.mydustexplosionresearch.com/dust-explosions-in-spherical-vessels-role-flame-thickness-validity-cube-root-law-summary},
    }
  • R. Siwek, “Experimental methods for the determination of explosion characteristics of combustible dusts,” in Loss prevention and safety promotion in the process industries, 1989.
    [Bibtex] [Summary]
    @InProceedings{Siwek1980,
    title={Experimental methods for the determination of explosion characteristics of combustible dusts},
    author={Siwek, R.},
    booktitle = {Loss Prevention and Safety Promotion in the Process Industries},
    volume={3},
    year={1989},
    summary = {http://www.mydustexplosionresearch.com/experimental-methods-for-the-determination-of-explosion-characteristics-combustible-dusts-summary}
    }

Flame Structure and Propagation

  • W. Gao, T. Mogi, J. Yu, J. Sun, and R. Dobashi, “Flame propagation mechansms in dust explosions,” in Proceedings of 10th international symposium on hazards, prevention, and mitigation of industrial explosions, 2014, pp. 31-44.
    [Bibtex]
    @InProceedings{Gao2014,
    title = {Flame propagation mechansms in dust explosions},
    author = {Gao, W. and Mogi, T. and Yu, J. and Sun, J. and Dobashi, R.},
    booktitle = {Proceedings of 10th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions},
    month = July,
    year = 2014,
    pages = {31--44},
    }
  • H. Kern, B. Wimmer, and H. Raupenstrauch, “Investigations on the influence of different inert gases on the laminar flame propagation in lycopodium/air mixtures,” in Proceedings of 9th global congress on process saftey, 2013.
    [Bibtex]
    @InProceedings{Kern2013,
    title = {Investigations on the influence of different inert gases on the laminar flame propagation in lycopodium/air mixtures},
    author = {Kern, H. and Wimmer, B. and Raupenstrauch, H.},
    booktitle = {Proceedings of 9th Global Congress on Process Saftey},
    month = apr,
    year = 2013,
    }
  • H. Kern, B. Wimmer, and H. Raupenstrauch, “Investigations on the influence of different inert gases on the laminar flame propagation in lycopodium/air mixtures,” in Proceedings of 9th global congress on process saftey, 2013.
    [Bibtex]
    @InProceedings{Kern2013,
    title = {Investigations on the influence of different inert gases on the laminar flame propagation in lycopodium/air mixtures},
    author = {Kern, H. and Wimmer, B. and Raupenstrauch, H.},
    booktitle = {Proceedings of 9th Global Congress on Process Saftey},
    month = apr,
    year = 2013,
    }
  • F. Tang, S. Goroshin, A. Higgins, and J. Lee, “Flame propagation and quenching in iron dust clouds,” Proceedings of the combustion institute, vol. 32, pp. 1905-1912, 2009.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Tang2009,
    title={Flame Propagation and Quenching in Iron Dust Clouds},
    author={Tang, F. and Goroshin, S. and Higgins, A. and Lee, J.},
    journal={Proceedings of The Combustion Institute},
    volume={32},
    pages={1905--1912},
    year={2009},
    link={http://www.sciencedirect.com/science/article/pii/S1540748908003672},
    summary={http://www.mydustexplosionresearch.com/flame-propagation-quenching-iron-dust-clouds},
    }
  • R. Dobashi, “Flame propagation mechansim during dust explosions,” in Proceedings of 5th international seminar on fire and explosion hazards, 2007.
    [Bibtex]
    @InProceedings{Dobashi2007,
    title = {Flame propagation mechansim during dust explosions},
    author = {Dobashi, R.},
    booktitle = {Proceedings of 5th International Seminar on Fire and Explosion Hazards},
    year = 2007,
    }
  • C. Proust, “A few fundamental aspects about ignition and flame propagation in dust clouds,” Journal of loss prevention in the process industries, vol. 19, p. 104–120, 2006.
    [Bibtex]
    @ARTICLE{Proust2006,
    title={A Few Fundamental Aspects About Ignition and Flame Propagation in Dust Clouds},
    author={Proust, Ch.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={19},
    pages={104–120},
    year={2006},
    }
  • A. E. Dahoe, K. Hanjalic, and B. Scarlett, “Determination of the laminar burning velocioty and the Markstein length of powder–air flames,” Powder technology, vol. 122, pp. 222-238, 2002.
    [Bibtex]
    @ARTICLE{Dahoe2002,
    title={Determination of the laminar burning velocioty and the {M}arkstein length of powder--air flames},
    author={Dahoe, A.E. and Hanjalic, K. and Scarlett, B.},
    journal={Powder Technology},
    volume={122},
    pages={222--238},
    year={2002},
    }
  • O. -S. Han, M. Yashima, T. Matsuda, H. Matsui, A. Miyake, and T. Ogawa, “A study of flame propagation mechanisms in lycopodium dust clouds based on dust particles’ behavior,” Journal of loss prevention in the process industries, vol. 14, pp. 153-160, 2001.
    [Bibtex]
    @ARTICLE{Han2001,
    title={A study of flame propagation mechanisms in lycopodium dust clouds based on dust particles' behavior},
    author={Han, O.-S. and Yashima, M. and Matsuda, T. and Matsui, H. and Miyake, A. and Ogawa, T},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={14},
    pages={153--160},
    year={2001},
    }
  • J. H. Sun, R. Dobashi, and T. Hirano, “Temperature profile across the combustion zone propagating through an iron particle cloud,” Journal of loss prevention in the process industries, vol. 14, pp. 463-467, 2001.
    [Bibtex]
    @ARTICLE{Sun2001,
    title={Temperature profile across the combustion zone propagating through an iron particle cloud},
    author={Sun, J.H. and Dobashi, R. and Hirano, T.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={14},
    pages={463--467},
    year={2001},
    }

Modeling

  • M. Broumand and M. Bidabadi, “Modeling combustion of micron-sized iron dust particles during flame propgation in a verticle duct,” Fire safety journal, vol. 59, pp. 88-93, 2013.
    [Bibtex]
    @ARTICLE{Broumand2013,
    title={Modeling combustion of micron-sized iron dust particles during flame propgation in a verticle duct},
    author={Broumand, M. and Bidabadi, M.},
    journal={Fire Safety Journal},
    volume={59},
    pages={88--93},
    year={2013},
    }
  • M. Bidabadi, A. Haghiri, and A. Rahbari, “Mathematical modeling of velocity and number density profiles of particles across the flame propagation through a micro–iron dust cloud,” Journal of hazardous materials, vol. 176, pp. 146-153, 2010.
    [Bibtex]
    @ARTICLE{Bidabadi2010b,
    title={Mathematical modeling of velocity and number density profiles of particles across the flame propagation through a micro--iron dust cloud},
    author={Bidabadi, M. and Haghiri, A. and Rahbari, A.},
    journal={Journal of Hazardous Materials},
    volume={176},
    pages={146--153},
    year={2010},
    }
  • A. Di Benedetto, P. Russo, P. R. Amyotte, and N. Marchand, “Modelling the effect of particle size on dust explosions,” Chemical engineering science, vol. 65, pp. 772-779, 2010.
    [Bibtex]
    @ARTICLE{DiBenedetto2010,
    title={Modelling the effect of particle size on dust explosions},
    author={Di Benedetto, A. and Russo, P. and Amyotte, P.R. and Marchand, N.},
    journal={Chemical Engineering Science},
    volume={65},
    pages={772--779},
    year={2010},
    }
  • F. Tang, S. Goroshin, A. Higgins, and J. Lee, “Flame propagation and quenching in iron dust clouds,” Proceedings of the combustion institute, vol. 32, pp. 1905-1912, 2009.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Tang2009,
    title={Flame Propagation and Quenching in Iron Dust Clouds},
    author={Tang, F. and Goroshin, S. and Higgins, A. and Lee, J.},
    journal={Proceedings of The Combustion Institute},
    volume={32},
    pages={1905--1912},
    year={2009},
    link={http://www.sciencedirect.com/science/article/pii/S1540748908003672},
    summary={http://www.mydustexplosionresearch.com/flame-propagation-quenching-iron-dust-clouds},
    }