Page 692 - Dust Explosions in the Process Industries
P. 692
Research and Development 659
Dust Explosions, eds. Deng Xufan and Piotr Wolanski, Shenyang, Peoples Republic of China,
pp. 71-80.
Hauert. F.,A. Vogl, D. Wennerberg, et al. (1996) “Staubverteilung und Geschwindigkeitsparameterin
einem pneumatisch befullten Silo mit numerischen Simulationen.” VDI-Berichte [VDI-Verlag
GmbH, Dusseldorf, Germany] 1272, pp. 309-326.
Hensel, W., and W. John. (November 1992) “Zusammenhang zwischen Glimmverhalten und
Staubschichtdicke.”VDI Colloquium Sichere Handhabung brennbarer Staube, Niirnberg, Germany.
Hensel, W., and W. John. (April 1993) “The Dependence of Minimum Ignition Temperatures of Dust
Layers upon Layer Thicknesses.” Proceedings of the Fifth International Colloquium on Dust
Explosions, Pultusk, Poland, pp. 35-57.
Rensel, W., U. Krause, W. John, et al. (April 1994) “Critical Parameters for the Ignition of Dust
Layers at Constant Heat Flux Boundary Conditions.” Proceedings of the 28th American Institution
of Chemical Engineers Annual Loss Prevention Symposium. Session No. 13 on Dust Explosions,
Atlanta. New Yosk: American Institution of Chemical Engineers.
Hertzberg, M., K. L. Cashdollar, I. A. Zlochower, et al. (1992b) “ExplosivesDust Cloud Combustion.”
Proceedings of the 24th Symposium (International) on Combustion, the Combustion Institute,
Pittsburgh, pp. 1837-1843.
Hertzberg, M., I. A. Zlochower, and K. L. Cashdollar. (1992a) “Metal Dust Combustion: Explosion
Limits, Pressures, and Temperatures.” Proceedings of the 24th Symposium (International) on
Combustion, the Combustion Institute, Pittsburgh, pp. 1827-1835.
Hesby, I. (2000) “Ignition of Dust Layers by Metal Particle Sparks.” MSc. thesis, Department of
Physics, University of Bergen, Norway. Part of the DESPRO programme conducted by CMR
(GexCon), Bergen, Norway.
Wesener, U., U. Barth, and B. Dyrba. (2001) “Erstellung von Explosionsschutzdokumentenanhand
von Anlagenbeispielen der pharmazeutischen Industrie.” VDI-Berichte [VDI-Verlag GmbH,
Dusseldorf, Gemany] 1601, pp. 225-237.
Wesener, U., A. Kraus, and H.-G. Schecker. (May 1998) “Computer Based Assessment of Hazards
Caused by Electrostatic Discharges.” Proceedings of the Ninth International Symposium on Loss
Prevention and Safety Promotion in the Process Industry, Barcelona, Spain, pp. 851-859.
Mesener, U., and H.-G. Schecker. (1995) “ExTrA-An Expert System for the Safety Analysis of
Drying Plants.” In Loss Prevention and Safety Promotion in the Process Industries, vol. 2, ed. J. J.
Mewis, H. J. Pasman, and E. E. De Rademaeker. Amsterdam: Elsevier, pp. 643-653.
Hesener,U., and H.-G. Schecker. (June 1996)“Possib es and Limitations of a Computer-BasedSafety
Assessment of Dust Handling Plants.” Proceedings of the Seventh InternationalColloquium on Dust
Explosions, Bergen, Norway. Bergen: GexCon AS (previously CMR).
Hjertager, B. H., K. Fuhre, and M. Bjoerkhaug. (1988) “Gas Explosion Experiments in 1:33 and 1:5
Scale Offshore Separator and Compressor Modules Using Stoichiometric Homogeneous Fuel/Air
Mixtures.” Journal of Loss Prevention in the Process Industry 1, pp. 197-205.
Hoechst, S., and W. Leuckel. (June 1996) “On the Effect of Venting Large Vessels with Mass Inert
Devices.” Proceedings of the Seventh International Colloquium on Dust Explosions, Bergen,
Norway. Bergen: GexCon AS (previously CMR).
Hoechst, S.. W. Leuckel, and J. Eibl. (1993) “Experimentelle Untersuchungen zum Ablauf von
Staubexplosionen in einer druckentlasteten Versuchs-Silozelle.” Chem.-1ng-Techn. 65, no. 12,
pp. 1488-1490.
Hoischen, U. (1996) “Bekhpfen von Silobranden mit Stickstoff.” VDI-Berichte [VDI-VerlagGmbH,
Dusseldorf, Germany] 1272, pp. 429439.
Holbrow, P., S.Andrews, and G. A. Lunn. (1996) “Dust Explosions in Interconnected Vented Vessels.”
Special issue on dust explosions, ed. P. R. Amyotte. Journal of Loss Prevention in the Process
Industry 9, pp. 91-103.
Holbrow, P., %.J. Hawksworth, and A. Tyldesley. (2000) “Thermal Radiation from Vented Dust
Explosions.” Journal ofLoss Prevention in the Process Industry 13, pp. 467476.
