Hybrid Explosion Literature

Explosion parameters

  • M. J. Ajrash, J. Zanganeh, and B. Moghtaderi, “Effects of ignition energy on fire and explosion characteristics of dilute hybrid fuel in ventilation air methane,” Journal of loss prevention in the process industries, vol. 40, pp. 207-216, 2016.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Ajrash2016,
    title={Effects of ignition energy on fire and explosion characteristics of dilute hybrid fuel in ventilation air methane},
    author={Ajrash, M.J. and Zanganeh, J. and Moghtaderi, B.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={40},
    pages={207--216},
    year={2016},
    link ={http://www.sciencedirect.com/science/article/pii/S0950423015300929/},
    summary = {http://www.mydustexplosionresearch.com/effects-ignition-energy-fire-explosion-characteristics-dilute-hybrid-fuel-ventilation-air-methane-summary/},
    }
  • A. Denkevits and B. Hoess, “Hybrid H$_{2}$/Al dust explosions in Siwek sphere,” Journal of loss prevention in the process industries, vol. 36, pp. 509-521, 2015.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Denkevits2015,
    title={Hybrid {H}$_{2}$/{A}l dust explosions in {S}iwek sphere},
    author={Denkevits, A. and Hoess, B.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={36},
    pages={509--521},
    year={2015},
    link ={http://www.sciencedirect.com/science/article/pii/S0950423015001047},
    summary = {http://www.mydustexplosionresearch.com/hybrid-h2-al-dust-explosions-in-siwek-sphere-summary},
    }
  • Y. Khalil, “Experimental investigation of the complex deflagration phenomena of hybrid mixtures of activated carbon dust/hydrogen/air,” Journal of loss prevention in the process industries, vol. 26, pp. 1027-1038, 2013.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Khalil2013,
    title={Experimental investigation of the complex deflagration phenomena of hybrid mixtures of activated carbon dust/hydrogen/air},
    author={Khalil, Y.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={26},
    pages={1027--1038},
    year={2013},
    link ={http://www.sciencedirect.com/science/article/pii/S0950423013000818},
    summary = {http://www.mydustexplosionresearch.com/experimental-investigation-complex-deflagration-phenomena-hybrid-mixtures-activated-carbon-dust-hydrogen-air-summary},
    }
  • P. Kosinski, R. Nyheim, V. Asokan, and T. Skjold, “Explosions of carbon black and propane hybrid mixtures,” Journal of loss prevention in the process industries, vol. 26, pp. 45-51, 2013.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Kosinski2013,
    title={Explosions of carbon black and propane hybrid mixtures},
    author={Kosinski, P. and Nyheim, R. and Asokan, V. and Skjold, T.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={26},
    pages={45--51},
    year={2013},
    link ={http://www.sciencedirect.com/science/article/pii/S0950423012001374},
    summary = {http://www.mydustexplosionresearch.com/explosions-of-carbon-black-and-propane-hybrid-mixtures-summary},
    }
  • A. Di Benedetto, A. Garcia-Agreda, P. Russo, and R. Sanchirico, “Combined effect of ignition energy and initial turbulence on the explosion behavior of lean gas/dust-air mixtures,” Industrial and engineering chemistry research, vol. 51, pp. 7663-7670, 2012.
    [Bibtex]
    @ARTICLE{DiBenedetto2012,
    title={Combined effect of ignition energy and initial turbulence on the explosion behavior of lean gas/dust-air mixtures},
    author={Di Benedetto, A. and Garcia-Agreda, A. and Russo, P. and Sanchirico, R.},
    journal={Industrial and Engineering Chemistry Research},
    volume={51},
    pages={7663--7670},
    year={2012},
    }
  • Q. Li, B. Lin, H. Dai, and S. Zhao, “Explosion characteristics of H$_{2}$/CH$_{4}$/air and CH$_{4}$/coal dust/air mixtures,” Powder technology, vol. 229, pp. 222-228, 2012.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Li2012,
    title={Explosion characteristics of {H}$_{2}$/{CH}$_{4}$/air and {CH}$_{4}$/coal dust/air mixtures},
    author={Li, Q. and Lin, B. and Dai, H. and Zhao, S.},
    journal={Powder Technology},
    volume={229},
    pages={222--228},
    year={2012},
    link={http://www.sciencedirect.com/science/article/pii/S0032591012004342},
    summary={http://www.mydustexplosionresearch.com/explosion-characteristics-h2-ch4-coal-dust-mixtures-summary},
    }
  • R. Sanchirico, A. Di Benedetto, A. Garcia-Agreda, and P. Russo, “Study of the severity of hybrid mixture explosions and comparison to pure dust-air and vapour-air explosions,” Journal of loss prevention in the process industries, vol. 24, pp. 648-655, 2011.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Sanchirico2011,
    title={Study of the severity of hybrid mixture explosions and comparison to pure dust-air and vapour-air explosions},
    author={Sanchirico, R. and Di Benedetto, A. and Garcia-Agreda, A. and Russo, P.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={24},
    pages={648--655},
    year={2011},
    link ={http://www.sciencedirect.com/science/article/pii/S095042301100074X},
    summary = {http://www.mydustexplosionresearch.com/study-severity-hybrid-mixture-explosions-summary},
    }
  • A. Garcia-Agreda, A. Di Benedetto, P. Russo, E. Salzano, and R. Sanchirico, “Dust/gas mixtures explosion regimes,” Powder technology, vol. 205, pp. 81-86, 2011.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Garcia-Agreda2011,
    title={Dust/gas mixtures explosion regimes},
    author={Garcia-Agreda, A. and Di Benedetto, A. and Russo, P. and Salzano, E. and Sanchirico, R.},
    journal={Powder Technology},
    volume={205},
    pages={81--86},
    year={2011},
    link={http://www.sciencedirect.com/science/article/pii/S0032591010004705},
    summary={http://www.mydustexplosionresearch.com/dust-gas-mixtures-explosion-regimes-summary},
    }
  • A. Denkevits, “Hydrogen/dust explosion hazard in ITER: Effect of nitrogen dilution on explosion behavior of hydrogen/tungsten dust/air mixtures,” Fusion engineering and design, vol. 85, pp. 1059-1063, 2010.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Denkevits2010,
    title={Hydrogen/dust explosion hazard in {ITER}: {E}ffect of nitrogen dilution on explosion behavior of hydrogen/tungsten dust/air mixtures},
    author={Denkevits, A.},
    journal={Fusion Engineering and Design},
    volume={85},
    pages={1059--1063},
    year={2010},
    link={http://www.sciencedirect.com/science/article/pii/S0920379610000104},
    summary={http://www.mydustexplosionresearch.com/hydrogen-dust-explosion-hazard-iter-summary/},
    }
  • P. Amyotte, M. Lindsay, R. Domaratzki, N. Marchand, A. Di Benedetto, and P. Russo, “Prevention and mitigation of polyethylene and hydrocarbon/polyethylyene explosions,” in Proceedings of 43rd loss prevention symposium, 2009, pp. 541-556.
    [Bibtex]
    @InProceedings{Amyotte2009,
    title = {Prevention and mitigation of polyethylene and hydrocarbon/polyethylyene explosions},
    author = {Amyotte, P. and Lindsay, M. and Domaratzki, R. and Marchand, N. and Di Benedetto, A. and Russo, P.},
    booktitle = {Proceedings of 43rd Loss Prevention Symposium},
    month={feb},
    year={2009},
    pages = {541--556},
    }
  • O. Dufaud, L. Perrin, S. Traoré, S. Chazelet, and D. Thomas, “Explosion of vapour/dust hybrid mixtures: A particular class,” Powder technology, vol. 190, pp. 269-273, 2009.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Dufaud2009,
    title={Explosion of vapour/dust hybrid mixtures: {A} particular class},
    author={Dufaud, O. and Perrin, L. and Traor\'{e}, S. and Chazelet, S. and Thomas, D.},
    journal={Powder Technology},
    volume={190},
    pages={269--273},
    year={2009},
    link={http://www.sciencedirect.com/science/article/pii/S0032591008002301},
    summary={http://www.mydustexplosionresearch.com/explosions-vapour-dust-hybrid-mixtures-particular-class-summary/},
    }
  • O. Dufaud, L. Perrin, and M. Traoré, “Dust/vapour explosions: Hybrid behaviours?,” Journal of loss prevention in the process industries, vol. 21, pp. 481-484, 2008.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Dufaud2008,
    title={Dust/vapour explosions: {H}ybrid behaviours?},
    author={Dufaud, O. and Perrin, L. and Traor\'{e}, M.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={21},
    pages={481--484},
    year={2008},
    link={http://www.sciencedirect.com/science/article/pii/S0950423007001416},
    summary={http://www.mydustexplosionresearch.com/dust-vapour-explosions-hybrid-behaviors-summary/},
    }
  • A. Denkevits, “Explosibility of hydrogen–graphite dust hybrid mixtures,” Journal of loss prevention in the process industries, vol. 20, pp. 698-707, 2007.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Denkevits2007,
    title={Explosibility of hydrogen--graphite dust hybrid mixtures},
    author={Denkevits, A.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={20},
    pages={698--707},
    year={2007},
    link={http://www.sciencedirect.com/science/article/pii/S0950423007000617},
    summary={http://www.mydustexplosionresearch.com/explosibility-of-hydrogen-graphite-dust-hybrid-mixtures-summary},
    }
  • R. Pilão, E. Ramalho, and C. Pinho, “Explosibility of cork dust in methane/air mixtures,” Journal of loss prevention in the process industries, vol. 19, pp. 17-23, 2006.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Pilao2006,
    title={Explosibility of cork dust in methane/air mixtures},
    author={Pil\~{a}o, R. and Ramalho, E. and Pinho, C.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={19},
    pages={17--23},
    year={2006},
    link={http://www.sciencedirect.com/science/article/pii/S0950423005000495},
    summary={http://www.mydustexplosionresearch.com/explosibility-of-cork-dust-methane-mixtures-summary/},
    }
  • K. Chatrathi, “Dust and hybrid explosibility in a 1 m$^{3}$ spherical chamber,” Process saftey progress, vol. 13, pp. 183-189, 1994.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Chatrathi1994,
    title={Dust and hybrid explosibility in a 1 m$^{3}$ spherical chamber},
    author={Chatrathi, K.},
    journal={Process Saftey Progress},
    volume={13},
    pages={183--189},
    year={1994},
    link ={http://onlinelibrary.wiley.com/doi/10.1002/prs.680130403/abstract},
    summary = {http://www.mydustexplosionresearch.com/dust-and-hybrid-explosibility-in-a-1-m3-spherical-chamber-summary},
    }

Flame Structure and Propagation

  • M. J. Ajrash, J. Zanganeh, and B. Moghtaderi, “Methane-coal dust hybrid fuel explosion properties in a large cylindrical explosion chamber,” Journal of loss prevention in the process industries, vol. 40, pp. 317-328, 2016.
    [Bibtex]
    @ARTICLE{Ajrash2016b,
    title={Methane-coal dust hybrid fuel explosion properties in a large cylindrical explosion chamber},
    author={Ajrash, M.J. and Zanganeh, J. and Moghtaderi, B.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={40},
    pages={317--328},
    year={2016},
    url={http://www.sciencedirect.com/science/article/pii/S0950423016300092},
    }
  • Y. Li, H. Xu, and X. Wang, “Experimental study on the influence of initial pressure of explosion of methane-coal dust mixtures,” Procedia engineering, vol. 62, pp. 980-984, 2013.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Li2013,
    title={Experimental Study on the Influence of Initial Pressure of Explosion of Methane-Coal Dust Mixtures},
    author={Li, Y. and Xu, H. and Wang, X.},
    journal={Procedia Engineering},
    volume={62},
    pages={980--984},
    year={2013},
    link={http://www.sciencedirect.com/science/article/pii/S1877705813013337},
    summary={http://www.mydustexplosionresearch.com/experimental-study-influence-initial-pressure-of-explosion-methane-coal-dust-mixtures},
    }
  • A. Di Benedetto, A. Garcia-Agreda, O. Dufaud, I. Khalili, R. Sanchirico, N. Cuervo, L. Perrin, and P. Russo, “Flame propagation of fust and gas-air mixtures in a tube,” in Proceedings of the mediterranean combustion symposium 7, 2011.
    [Bibtex]
    @InProceedings{DiBenedetto2011,
    title = {Flame propagation of fust and gas-air mixtures in a tube},
    author = {Di Benedetto, A. and Garcia-Agreda, A. and Dufaud, O. and Khalili, I. and Sanchirico, R. and Cuervo, N. and Perrin, L. and Russo, P.},
    booktitle = {Proceedings of the Mediterranean Combustion Symposium 7},
    year = 2011,
    }
  • C. Bai, G. Gong, Q. Liu, Y. Chen, and G. Niu, “The explosion overpressure field and flame propagation of methane/air and methane/coal dust/air mixtures,” Safety science, vol. 49, pp. 1349-1354, 2011.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Bai2011,
    title={The Explosion Overpressure Field and Flame Propagation of Methane/Air and Methane/Coal Dust/Air Mixtures},
    author={Bai, C and Gong, G. and Liu, Q. and Chen, Y. and Niu, G.},
    journal={Safety Science},
    volume={49},
    pages={1349--1354},
    year={2011},
    link={http://www.sciencedirect.com/science/article/pii/S0925753511001160},
    summary={http://www.mydustexplosionresearch.com/explosion-overpressure-field-flame-propagation-methane-air-coal-dust-mixtures-summary},
    }
  • Y. Liu, J. Sun, and D. Chen, “Flame propagation in hybrid mixture of coal dust and methane,” Journal of loss prevention in the process industries, vol. 20, pp. 691-697, 2007.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Liu2007,
    title={Flame propagation in hybrid mixture of coal dust and methane},
    author={Liu, Yi. and Sun, J. and Chen, D.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={20},
    pages={691--697},
    year={2007},
    link={http://www.sciencedirect.com/science/article/pii/S0950423007000629},
    summary={http://www.mydustexplosionresearch.com/flame-propagation-in-hybrid-mixture-coal-dust-methane},
    }

Lower Flammability Limit (LFL) and Minimum Ignition Energy (MIE)

  • E. Addai, D. Gabel, and U. Krause, “Lower explosion limit/minimum explosible concentration testing for hybrid mixtures in the Godbert–Greenwald furnace,” Process saftey progress, vol. In Press, 2016.
    [Bibtex]
    @ARTICLE{Addai2016c,
    title={Lower explosion limit/minimum explosible concentration testing for hybrid mixtures in the {G}odbert--{G}reenwald furnace},
    author={Addai, E. and Gabel, D. and Krause, U.},
    journal={Process Saftey Progress},
    volume={In Press},
    pages={},
    year={2016},
    }
  • E. Addai, D. Gabel, and U. Krause, “Lower explosion limit of hybrid mixtures of burnable gas and dust,” Journal of loss prevention in the process industries, vol. 36, pp. 497-504, 2015.
    [Bibtex]
    @ARTICLE{Addai2015,
    title={Lower explosion limit of hybrid mixtures of burnable gas and dust},
    author={Addai, E. and Gabel, D. and Krause, U.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={36},
    pages={497--504},
    year={2015},
    }
  • J. Jiang, Y. Liu, C. Mashuga, and S. Mannan, “Validation of a new formula for predicting the lower flammability limit of hybrid mixtures,” Journal of loss prevention in the process industries, vol. 35, pp. 52-58, 2015.
    [Bibtex]
    @ARTICLE{Jiang2015,
    title={Validation of a new formula for predicting the lower flammability limit of hybrid mixtures},
    author={Jiang, J. and Liu, Y. and Mashuga, C. and Mannan, S.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={35},
    pages={52--58},
    year={2015},
    }
  • E. K. Addai, D. Gabel, and U. Krause, “Lower explosion limit of hybrid mixtures,” in Proceedings of 10th international symposium on hazards, prevention, and mitigation of industrial explosions, 2014, pp. 995-1005.
    [Bibtex]
    @InProceedings{Addai2014,
    title = {Lower explosion limit of hybrid mixtures},
    author = {Addai, E.K. and Gabel, D. and Krause, U.},
    booktitle = {Proceedings of 10th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions},
    month = July,
    year = 2014,
    pages = {995--1005},
    }
  • J. Jiang, Y. Liu, and S. Mannan, “A correlation of the lower flammability limit for hybrid mixtures,” Journal of loss prevention in the process industries, vol. 32, pp. 120-126, 2014.
    [Bibtex]
    @ARTICLE{Jiang2014,
    title={A correlation of the lower flammability limit for hybrid mixtures},
    author={Jiang, J. and Liu, Y. and Mannan, S.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={32},
    pages={120--126},
    year={2014},
    }
  • I. Khalili, O. Dufaud, M. Poupeau, N. Cuervo-Rodriguez, and L. Perrin, “Ignition sensitivity of gas-vapor/dust hybrid mixtures,” Powder technology, vol. 217, pp. 199-206, 2012.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Khalili2012,
    title={Ignition sensitivity of gas-vapor/dust hybrid mixtures},
    author={Khalili, I. and Dufaud, O. and Poupeau, M. and Cuervo-Rodriguez, N. and Perrin, L.},
    journal={Powder Technology},
    volume={217},
    pages={199--206},
    year={2012},
    link ={http://www.sciencedirect.com/science/article/pii/S0032591012004342},
    summary = {http://www.mydustexplosionresearch.com/explosion-characteristics-h2-ch4-coal-dust-mixtures-summary},
    }
  • M. Nifuku, T. H., K. Fujino, K. Takaichi, C. Barre, P. E., M. Hatori, S. Fujiwara, S. Horiguchi, and I. Sochet, “Ignitability assessment of shredder dusts of refrigerator and the prevention of the dust explosion,” Journal of loss prevention in the process industries, vol. 19, pp. 181-186, 2006.
    [Bibtex]
    @ARTICLE{Nifuku2006,
    title={Ignitability assessment of shredder dusts of refrigerator and the prevention of the dust explosion},
    author={Nifuku, M. and Tsujita H. and Fujino, K. and Takaichi, K. and Barre, C. and Paya E. and Hatori, M. and Fujiwara, S. and Horiguchi, S. and Sochet, I.},
    journal={Journal of Loss Prevention in the Process Industries},
    volume={19},
    pages={181--186},
    year={2006},
    }
  • K. Chatrathi, “Dust and hybrid explosibility in a 1 m$^{3}$ spherical chamber,” Process saftey progress, vol. 13, pp. 183-189, 1994.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Chatrathi1994,
    title={Dust and hybrid explosibility in a 1 m$^{3}$ spherical chamber},
    author={Chatrathi, K.},
    journal={Process Saftey Progress},
    volume={13},
    pages={183--189},
    year={1994},
    link ={http://onlinelibrary.wiley.com/doi/10.1002/prs.680130403/abstract},
    summary = {http://www.mydustexplosionresearch.com/dust-and-hybrid-explosibility-in-a-1-m3-spherical-chamber-summary},
    }
  • P. R. Amyotte, K. J. Mintz, M. J. Pegg, Y. H. Sun, and K. I. Wilkie, “Effects of methane admixture, particle size and volatile content on the dolomite inerting requirements of coal dust,” Fuel, vol. 72, pp. 671-679, 1993.
    [Bibtex]
    @ARTICLE{Amyotte1991,
    title={Effects of methane admixture, particle size and volatile content on the dolomite inerting requirements of coal dust},
    author={Amyotte, P.R. and Mintz, K.J. and Pegg, M.J. and Sun, Y.H. and Wilkie, K.I.},
    journal={Fuel},
    volume={72},
    pages={671--679},
    year={1993},
    }
  • G. Pellmont, “Minimum ignition energy of combustible dusts and explosion behavior of hybrid mixtures,” in Proceedings 3rd international symposium on loss prevention and saftey promotion in the process industries, Basel, Switzerland, 1980, pp. 851-862.
    [Bibtex]
    @InProceedings{Pellmont1980,
    title = {Minimum ignition energy of combustible dusts and explosion behavior of hybrid mixtures},
    author = {Pellmont, G.},
    booktitle = {Proceedings 3rd International Symposium on Loss Prevention and Saftey Promotion in the Process Industries},
    vol={3},
    year={1980},
    pages = {851--862},
    address= {Basel, Switzerland},
    }

Modeling

  • E. Addai, D. Gabel, and U. Krause, “Models to estimate the minimum ignition temperature of dusts and hybrid mixtures,” Journal of hazardous materials, vol. 304, pp. 73-83, 2016.
    [Bibtex]
    @ARTICLE{Addai2016b,
    title={Models to estimate the minimum ignition temperature of dusts and hybrid mixtures},
    author={Addai, E. and Gabel, D. and Krause, U.},
    journal={Journal of Hazardous Materials},
    volume={304},
    pages={73--83},
    year={2016},
    }
  • R. Redlinger, “Numerical simulation of hybrid dust/gas explosion experiments in the standard 20-l sphere,” Fusion engineering and design, vol. In Press, 2015.
    [Bibtex]
    @ARTICLE{Redlinger2015,
    title={Numerical simulation of hybrid dust/gas explosion experiments in the standard 20-L sphere},
    author={Redlinger, R.},
    journal={Fusion Engineering and Design},
    volume={In Press},
    year={2015},
    }
  • P. Russo, A. Di Benedetto, and R. Sanchirico, “Theoretical evaluation of the explosion regimes of hybrid mixtures,” Chemical engineering transactions, vol. 26, pp. 51-56, 2012.
    [Bibtex]
    @ARTICLE{Russo2012,
    title={Theoretical evaluation of the explosion regimes of hybrid mixtures},
    author={Russo, P. and Di Benedetto, A. and Sanchirico, R.},
    journal={Chemical Engineering Transactions},
    volume={26},
    pages={51--56},
    year={2012},
    }

Limiting Oxygen Concentration (LOC)

  • E. Addai, D. Gabel, and U. Krause, “Experimental investigation on the minimum ignition temperature of hybrid mixtures of dusts and gases or solvents,” Journal of hazardous materials, vol. 301, pp. 314-326, 2016.
    [Bibtex]
    @ARTICLE{Addai2016,
    title={Experimental investigation on the minimum ignition temperature of hybrid mixtures of dusts and gases or solvents},
    author={Addai, E. and Gabel, D. and Krause, U.},
    journal={Journal of Hazardous Materials},
    volume={301},
    pages={314--326},
    year={2016},
    }

Minimum Ignition Temperature (MIT)

  • U. Krause, E. K. Addai, and D. Gabel, “Determination of the limiting oxygen concentration of dust/air and hybrid mixtures based on thermochemical properties,” in Proceedings of 11th international symposium on hazards, prevention, and mitigation of industrial explosions, 2016, pp. 265-274.
    [Bibtex]
    @InProceedings{Krause2016,
    title = {Determination of the limiting oxygen concentration of dust/air and hybrid mixtures based on thermochemical properties},
    author = {Krause, U. and Addai, E.K. and Gabel, D.},
    booktitle = {Proceedings of 11th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions},
    month = July,
    year = 2016,
    pages = {265--274},
    }

Process Safety

  • P. Amyotte, F. Khan, S. Boilard, I. Iarossi, C. Cloney, A. Dastidar, R. Eckhoff, L. Marmo, and R. Ripley, “Explosibility of nontraditional dusts: experiments and modeling challenges,” in Proceedings of HAZARDS XXII, IChemE symposium series no. 158, 2012, pp. 83-90.
    [Bibtex]
    @InProceedings{Amyotte2012,
    title = {Explosibility of nontraditional dusts: Experiments and modeling challenges},
    author = {Amyotte, P. and Khan, F. and Boilard, S. and Iarossi, I. and Cloney, C. and Dastidar, A. and Eckhoff, R. and Marmo, L. and Ripley, R.},
    booktitle = {Proceedings of {HAZARDS XXII}, {IC}hem{E} Symposium Series No. 158},
    year={2012},
    pages = {83--90},
    }
  • A. G. Dastidar, B. Nalda-Reyes, and J. C. Dahn, “Evalutation of dust and hybrid mixture explosion potential in process plants,” Process safety progress, vol. 24, pp. 294-298, 2005.
    [Bibtex] [Summary] [Link]
    @ARTICLE{Dastidar2005,
    title={Evalutation of dust and hybrid mixture explosion potential in process plants},
    author={Dastidar, A.G. and Nalda-Reyes, B. and Dahn, J.C.},
    journal={Process Safety Progress},
    volume={24},
    pages={294--298},
    year={2005},
    link ={http://onlinelibrary.wiley.com/doi/10.1002/prs.10097/abstract},
    summary = {http://www.mydustexplosionresearch.com/evaluation-of-dust-and-hybrid-mixture-explosion-potential-process-plants-summary},
    }