Page 704 - Dust Explosions in the Process Industries
P. 704
Research and Development 677
Rogers, R. L. (February 1999) “ElectrostaticDischarges: From Harmless Sparks to Dangerous Ignition
Sources.Developments and Applications.” Proceedings of the Third World Seminaron the Explosion
Phenomenon and on the Application of Explosion Protection Techniques in Practice, Ghent, Belgium.
Ghent: Flanders Expo.
Rogers, R. L. (2001) “European Standardization in the ‘Non-Electric Field’. Work of CEN/TC
305NG2: Equipment for use in potentially explosive atmospheres.” VDd-Berichte [VDI-Verlag
GmbH, Dusseldorf, Germany] 1601, pp. 89-92.
Ronney, P. D. (1999) “A Perspective on the Role of Microgravity in Combustion Research.” Combustion
and Flame 116, pp. 317-318.
Rose, M., P. Roth, S. M. Frolov, et al. (1997) “Lagrangian Approach for Modelling Two-Phase
Turbulent Reactive Flows.” In Advanced Computation andAnalysis of Combustion, ed. D. G. Roy,
S. M. Frolov, and P. Givi. Moscow.
Rose, M., P. Roth, S. M. Frolov, et al. (1999) “Modelling of Turbulent GasParticle Combustion by a
Lagrangian PDF Method.” Combustion Science and Technology 149, pp. 95-1 13.
Rosenband, V., and A. Gany. (2001) “A Microscopic and Analytic Study of Aluminium Particle
Agglomeration.” Combustion Science and Technology 166, pp. 91-108.
Rosenband, V., andA. Gany. (2002) “Testing of Metal Powders Behaviour in a Hot Stage Microscope.”
In Combustion of Energetic Materials, ed. K. K.Kuo and L. T. DeLuca. New York: Begell House
Inc.
Rosenband, V., A. Gany, andY. M. Timnat. (1998) “Magnesium and Boron Combustion in Hot Steam
Atmosphere.” Defence Science Journal 48, pp. 309-3 15.
Roser, M., A. Vogl, S. Radandt, et al. (1999) “Investigations of Flame Front Propagation between
Interconnected Process Vessels. Development of a New Flame Front Propagation Time Prediction
Model.” Journal of Loss Prevention in the Process industry 12, pp. 421436.
Roser, M., A. Vogl, S. Radandt, et al. (2001) “Untersuchungen von Flammenfortlaufzeiten in
Rohrleitungen zur Bestimmung der Mindesteinbau-abstande von explosionstechnischen Ent-
kopplungseinrichtungen.” VDI-Berichte [VDI-Verlag GmbH, Dusseldorf, Germany] 1601, pp.
621-637.
Rybak, W., J. Zelkowski, and S. Remke. (1996) “Experimental and Theoretical Studies of Ignition
Behaviour of Coal Char and Coal Particle Suspensions.” Proceedings of the Seventh International
Coloquium on Dust Explosions, Bergen, Norway. Published by GexCon AS (previously CMR),
Bergen, Norway.
Rzal-Rebikre, F., and E. Veyssibre. (July 1992) “Interaction of a Vortex Ring with Gaseous and Dust
Flames.” 24th Symposium (International) on Combustion, Sydney, Australia, the International
Combustion Institute.
Rzal-Rebikre, F., and B. Veyssibre. (AugusVSeptember 1994) “Propagation Mechanisms of Starch
Particles-Air Flames.” Proceedings of the Sixth International Colloquium on Dust Explosions, ed.
Deng Xufan and Piotr Wolanski, Shenyang, Peoples Republic of China, pp. 186-200.
Sapko, M. J., E. S. Weiss, K.L. Cashdollar, et al. (2000) “Experimental Mine and Laboratory Dust
Explosion Research at NIOSH.” Special issueon dust explosions, ed.I? R. Amyotte and K.L. Cashdollar.
Journal of Loss Prevention in the Process Industry 13, pp. 229-242.
Scbacke, H., R. Viard, and C.-D. Walther. (1996) “Staubexplosionsschutz in Chemieanlagen-
Kozeptfindung fiir Planung und Betrieb.” VDI-Berichte [VDI-VerlagGmbH, Dusseldorf, Germany]
1272, pp. 389-410.
Schacke, H., and C.-D. Walther. (May 1998) “Avoidance of Ignition by Rendering Ignition Sources
Ineffective.” Proceedings of the Ninth International Symposium on Loss Prevention and Safety
Promotion in the Process Industry, Barcelona, Spain, pp. 890-901.
Schecker,H.-G. (1996) “Stabilitatund Induktionszeitvon Feststoff-Schuttungen.”VDI-Bevichte[VDI-
Verlag GmbH, Dusseldorf, Germany] 1272, pp. 203-213.
Scheidemann,E., and G. Adorneit. (1996) “NumerischeUntersuchung der Zundung einer angestromten
Schi.ittung.” VDI-Berichte [VDI-Verlag GmbH, Diisseldorf, Germany] 1272, pp. 595-606.
