Page 169 - Dust Explosions in the Process Industries
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742 Dust Explosions in the Process Industries
Afnor. (1986, December) “SCcuritC des silos. AttCnuation des effets des explosions par les Cvents de
dCcharge. Calcul des surfaces d’Cvents.” Afnor Publication 86820, U54-540.
Aldis, D. F., and F. S. Lai. (1979) Review of Literature Related to Engineering Aspects of Grain Dust
Explosions. U.S. Department of Agriculture. Miscellaneous Publication No. 1375.
Alfert, F., R. K. Eckhoff, and K.Fuhre. (1989) “Ziindwirksamkeit von Glimmnestern und heissen
Gegenstkden in industriellenAnlagen.” VDI-Berichte [VDI-VerlagGmbH, Diisseldorfl 701, pp.
303-319.
Alfert, F., and K. Fuhre. (1989, January) “Flame and Dust Free Venting of Dust Explosions by Means
of a Quenching Pipe.” Report No. 89/25820-1. Bergen, Norway: Chr. Michelsen Institute.
Allenbach, C. R. (1984, December) “Combustibility Characteristics of Fine Sized Ferro-Alloys and
Metals.” In Proceedings of the 42nd Electric Furnace Conference, Toronto, Canada.
Amaratunga, L. M. (1988) “Sulphide Dust Explosion. Laboratory Ore Dust Ignition and Degree of
Oxidation Test.” Symposium Series of the Australian Institute of Minerals and Metallurgy 60, pp.
483-489.
Ambroziak, Z. K. (1985, April) “Investigation of Dust Explosion Hazards in the Baking Industry.”
International Symposium on Control of the Risks in Handling and Storage of Granular Foods,
APRIA, Paris.
Andriessen, H., R. Kroebel, T. Bereznai, et al. (1987) “Untersuchungen zum Brand- und
Explosionsverhalten von Zircaloy-Feinteilchen.” Bericht EUR I1120 des Amts fur umtliche
Veroiffentlichhungendes Europaischen Gemeinschuften.
Anonymous. (1989) “Neue Wege imStaubexplosionsschutz.Druckentlastung ohne Flammenausbreitung
und Immissionen.” Chemie-Technik 18, pp. 56-57.
Ariessohn, P. C., and J. C. F. Wang. (1985) “Recent Development of a Real-Time Particulate Mass
Sampling System for High TemperatureApplications.” Combustion and Flame 59, pp. 81-91.
Arvidsson,T., E. Back, and B. Ostman. (1977,April) “Brand-och explosionsriskeri sphskivefabriker.
Part 4. Final Report.” STFI-meddelande,Series B No. 442 (FSB57). Stockholm, Sweden: Svenska
Triiforskningsinstitutet.
Atkinson,N. (1988, October) “Everyone Makes Mistakes,but Can You Always Live with the Result?’
Process Engineering, pp. 35-37.
Baker, W. E., P. A. Cox, P. S. Westine, et al. (1983) Explosion Hazards and Evaluation. Fundamental
Studies in Engineering Series, vol. 5. Amsterdam, The Netherlands: Elsevier Science Publishing
Company.
BakIygin, V. N., and Z. K. Nikitina. (1978) “Assessment of the Fire and Explosion Hazards of Dust
Mixtures of Ingredients in Preparation.”International Polymer of Science and Technology 5, no. 5.
Ballal, D. R. (1980) “Ignition and Flame Quenching of Quiescent Dust Clouds of Solid Fuels.”
Proceedings of the Royal Society of London A369, pp. 479-500.
Bartknecht, W. (1978) Explosionen-Ablauf und Schutzmassnahmen. Berlin: Springer-Verlag.
Bartknecht, W. (1979) “Forschung in der Sicherheitstechnik.”Chemie-Technik 8, pp. 493-503.
Bartknecht, W. (1980)“Der Staubexplosionsgefahris mit Schnellschluss-Schiebernwirksam zu begeg-
nen.” Maschinenmarkt 86, pp. 1133-1136.
Bartknecht,W. (1982, July/August)“How Valve Action Can Combat the TransmissionEffect (of Dust
Explosions).”Bulk-Storage, Movement, Control, pp. 37-40.
Bartknecht, W. (1986) “Latest Findings Concerning Explosion and Ignition Behaviours of Coating
Powders with Special Consideration of their Inflammation Behaviour in Coating Cabins.” In
Proceedings of the First British-Geman Conference on Powder Coating. Berlin: Techn.+Kommun.
Verlag GmbH.
Bartknecht, W. (1987) Staubexplosionen-Ablauf und Schutzmassnahmen. Berlin: Springer-Verlag.
Bartknecht, W. (1988) “Brennbare Staube und hybride Gemische: Part 2. Schutzmassnahmengegen
das Entstehenund dieAuswirkungen von Staubexplosionen.”Staub-Reinhalt. Luft 48, pp. 417-425.
Beck, G. (1974) “Ein Beitrag zum systematischen Staubexplosionsschutz.” Chem. Techn. 26,
pp. 426-427.
