Page 276 - Dust Explosions in the Process Industries
P. 276
248 Dust Explosions in the Process Industries
Fairchild, C. I., M. I. Tillery, and L. D. Wheat. (1985) “Wind and SaltationDriven Particle Resuspension
in a Wind Tunnel.” International Symposiuflorkshop on Particulate and Multiphase Processes,
Fine Particle Society, Harlow, UK.
Fan Jianren, Zhao Hua, and Cen Kefa. (1989, September) “Numerical Modelling and Experimental
Study of the Gas-Particle Coaxial Jets.” Chemical Reaction Engineering and Technology 5,
pp. 26-35.
Forsythe,W. E. (1959) SmithsonianPhysical Tables,9th ed. Washington,DC: SmithsonianInstitution.
Gardiner, D. P., S. G. Caird, and M. E Bardon. (1988) “An Apparatus for Studying Deflagration
through Electrostatic Suspensions of Atomized Aluminium in Air.” Proceedings of the 13th
International Pyrotechnics Seminar, pp. 311-326.
Geldart, D. (1986) Gas Fluidization Technology. New York: J. Wiley and Sons.
Geldart, D., and C. Y. Wong. (1984) “Fluidization of Powders Showing Degrees of Cohesiveness.
I. Bed Expansion.” Chemical Engineering Science 39, pp. 1481-1488.
Genchev, Z. D., and D. S. Karpuzov. (1980) “Effects of the Motion of Dust Particles on Turbulence
Transport Equations.” Journal of Fluid Mechanics 101, no. 4, pp. 833-842.
Gieras, M., R. Klemens, P. Wolanski, and S. Wojcicki. (1986) “Experimental and Theoretical
Investigation into the Ignition and Combustion Processes of Single Coal Particles under Zero and
Normal Gravity Conditions.” 21st International Symposiumon Combustion,CombustionInstitute,
pp. 315-323.
Gliwitzky, W. (1936) “Pressure-TimeMeasurement in Aluminium Dust Explosions.” 2. Vex Deutch.
Zng. 80, pp. 687-692.
Green, H. L., and W. R. Lane. (1964) Particulate Clouds: Dusts, Smokes and Mists, 2d ed. London:
E. & F. N. Spon.
Gutterman,A. M., and W. E. Ranz. (1959, July) “Dust Properties and Dust Collection.” Journal of the
SanitaryEngineeringDivision,Proceedingsof theAmerican Society of CivilEngineers SA4,pp. 2549.
Haider, A., and 0.Levenspiel. (1989) “Drag Coefficientand Terminal Velocity of Spherical and Non-
Spherical Particles.” Powder Technology 58, pp. 63-70.
Hartmann, I., J. Nagy, and H. R. Brown. (1943) “Inflammabilityand Explosibilityof Metal Powders.”
Report Inv. 3722. Pittsburgh, PA: U.S. Bureau of Mines.
Hatta, N., H. Takuda, R. Ishii, et al. (1989) “A Theoretical Study on Nozzle Design for Gas-Particle
Mixture Flow.” ZSZJ International 29, pp. 605-613.
Helwig, N. (1965) “Untersuchungen iiber den Einfluss der Korngrosse auf den Ablauf von
Kohlenstaubexplosionen.” D.82 (dissertation, T. H. Aachen). Mitteilungen der Wesfahlischen
Berggewerkschaftskasse, no. 24.
Herdan, G. (1960) Small Particle Statistics. London: Butterworths.
Hinze, J. 0.(1975) Turbulence, 2d ed. London: McGraw-Hill.
Hodgman, C. D. (1963) Handbook of Chemistry and Physics, 44th ed. Cleveland, OH: Chemical
Rubber Publishing Co.
Holtzwart, R., and E. von Meyer. (1891) “On the Causes of Explosions in Brown-Coal Briquette
Works.” Dinglers Journal 280, pp. 185-190,237-240.
Hwang, C. C., J. M. Singer, and T. N. Hartz. (1974) “Dispersion of Dust in a Channel by a Turbulent
Gas Stream.” Report Inv. 7854. Pittsburgh, PA: U.S. Bureau of Mines.
International Standards Organization. (1985) “Explosion Protection Systems: Part 1. Determination
of Explosion Indices of Combustible Dusts in Air.” Report No. IS0 6184/1. Geneva: ISO.
Iversen, J. D. (1985) “Particulate Entrainment by Wind.” International Symposiumiworkshop on
Particulate and Multiphase Processes, Fine Particle Society.
Jenike, A. W. (1964) “Storage and Flow of Solids.” Bulletin 123. Salt Lake City, UT: Utah University.
Johansen, S. T. (1987, May) “Numerical Modelling of the Acucut Air Classifier for Fine Powders.”
Report No. STF 34 F87058. Trondheim, Norway: SINTEF.
Jones, E., and A. G. White. (1948, September)“Gas Explosions and Dust Explosions-AComparison.”
Proceedings of the Conference on Dust in Industry, Society of Chemical Industry, pp. 129-139.
