ElectricalApparatuses for Areas Containing Combustible Dusts  577


               *‘Atex118a” Directive. (1999) Directive 1999/92/EC of the European Parliament and the Council of
                 December 16, 1999, on minimum requirements for improving the safety and health protection of
                 workers potentially at risk from explosive atmospheres (15th individual directive within the mean-
                 ing of Article 16(1) of Directive 89/391/EEC).
               Australian standard. (1995) Australian StandardAS 238  I. 10-1995:Electrical Equipment for Explosive
                 Atmospheres. Selection, Installation and Maintenance, Part  10: Equipment in Combustible Dust
                 (Class 11)Areas.
               Bartknecht, W. (1993) Explosionsschutz. Berlin: Springer-Verlag,Table 1.43, p. 220.
               Beck, H.  (2002, October) “Einsatz von Arbeitsmitteln  in staubexplosionsgefahrdetenBereichen.
                 Zoneneinteilung  und  Geratekategorien.” Proceedings of  the Conference “Sichere Handhabung
                 brennbarer Staube,” Niirnberg, Germany. VDI Bericht [VDI, Diisseldorf, Germany] 1717.
               Beck, H., N.  Glienke, and C. Mohlmann.  (1997) BIA-Report 13/97: Combustion and Explosion
                 Characteristics of Dusts. Saint Augustine, Germany: HVBG.
               Bennett, D., G. A. Lunn, J. G. Torrent, E. Querol, J.-P. Fritze. (2003) “A Test for Electrical Ignitions
                 of Flammable Dust Clouds.” Journal of  Loss Prevention in the Process Industries 16, pp. 3340.
               Blob, A., K. Brehm, and C.-D. Walther.  (2001) “3-Zonen-Konzept im Staubexplosionsschutz-ein
                 Fortschritt?Anwendung den neuen Reglung in der Praxis.” VDIBericht [VDI,Diisseldorf, Germany]
                 1601, pp. 241-256.
               Boyle, A. R., and F”J. Llewellyn. (1950) “The Electrostatic Ignitability of Dust Clouds and Powders.”
                 Journal of the Society of the Chemical Industry Transactions 69, pp. 173-181.
               CEPIT.  (2002, June) “Potentially Explosive Atmospheres-Explosion  Prevention and Protection-
                 Determination of Minimum Ignition Energy of Dust/Air Mixtures.” Report prEN 13821. Brussels:
                 CEN Central Secretariat.
               CENELEC. (1998a, September) “Electrical Apparatus for Use in the Presence of Combustible Dust.
                 Part 1-1. Constructionand Testing.” European standard EN 50281-1-1.Brussels: CENELEC Central
                 Secretariat.
               CENELEC. (1998b, September) “Electrical Apparatus for Use in the Presence of Combustible Dust.
                 Part 1-2. Selection,Installationand Maintenance.” Final European standard EN 50281-1-2.Brussels:
                 CENELEC Central Secretariat.
               CENELEC. (l998c, September) “Electrical Apparatus for Use in the Presence of Combustible Dust.
                 Part 2-1. Test Methods-Method   for Determining the Minimum Ignition Temperatures of Dust.”
                 European standard EN 50281-2-1. Brussels: CENELEC Central Secretariat.
               CENELEC. (2001,April) “ElectricalApparatus for Potentially Explosive Gas Atmospheres-Intrinsic
                 Safety ‘i’.” Final draft European standard EN 50020. Brussels: CENELEC Central Secretariat.
               CENELEC. (2002, September) “Electrical Apparatus for Use in the Presence of Combustible Dust.
                 Part 3. Classification of Areas Where Combustible Dusts Are or May Be Present.” European stan-
                 dard EN 50281-3. Brussels: CENELEC Central Secretariat.
               Dorsett, H. G., and J. Nagy. (1968) “Dust Explosibility of Chemicals, Drugs, Dyes, and Pesticides.”
                 Report Inv. 7132. Washington, DC: U.S. Bureau of Mines, U.S. Departmenr of the Interior.
               Eckhoff, R. K. (1975) “Towards Absolute Minimum Ignition Energies for Dusl Clouds.” Combustion
                 and Flame 24, pp. 53-64.
               Eckhoff, R.  K. (2000) “Design of Electrical Equipment for Areas Containing Combustible Dusts.
                 Why Dust Standards Cannot Be Extensively Harmonized with Gas Standards.” Journal of  Lass
                Prevention in the Process Industry 13, pp. 201-208.
               Eckhoff,  R. K. (2002a, October) “The New IEC Standardfor PressurizedElectrical Equipmentenclosures
                 for keas ContainingCombustibleDust.A Self-contradiction.”J. Phys. N France 12,R7, pp. 165-169.
               Eckhoff, R. K. (2002b) “Minimum Ignition Energy (M1E)-A  Basic Ignition Sensitivity Parameter
                in Design of Intrinsically Safe Electrical Apparatus for Explosive Dust Clouds.” Joouunal of Loss
                Prevention in the Process Industry 15, pp. 305-310.
               Eckhoff, R. K., and G. G. Enstad  (1976) “Why Are  ‘Long’ Electric Sparks More Effective Dust
                Explosion Initiators than ‘Short’Ones?” Combustion and Flume 27, pp. 129-130.