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Annual loss prevention symposia

Erurip, D. J., T. C. Elofelich, D. J. Eeggett, J. J. Kurland, and J. K. Niemeier, 1997. A Review of Chemical Compatibility Issues, Proceedings of the Annual Loss Prevention Symposium, American Institute of Chemical Engineers, Vol. 31, 1997. [Pg.149]

Maggioli, V. J., and G. FI. Stike, Jr. 1990. Programmable Electronic Systems and Safety in Today s Chemical Plants. 24th Annual Loss Prevention Symposium. August 19-22, San Diego, California. American Institute of Chemical Engineers, New York. [Pg.152]

Frank, W. L. (1995). Evaluation of a Containment Building for a Liquid Chlorine Unloading Facility. Proceedings of the 29th Annual Loss Prevention Symposium, July 30-August 2, 1995, Boston, MA, ed. E. D. Wixom and R. P. Benedetti, Paper 5b. New York American Institute of Chemical Engineers. [Pg.140]

Lewis, D. J. (1979). The Mond Fire, Explosion and Toxicity Index Applied to Plant Layout and Spacing. i3th Annual Loss Prevention Symposium, April 2-5, 1979, Houston, TX, 20-26. Loss Prevention, No. 13. New York American Institute of Chemical Engineers. [Pg.142]

W. B. Howard, Case Histories of Two Incidents Following Process Safety Reviews, Proceedings of the Thirty-first Annual Loss Prevention Symposium, AIChE, New York, 1997. [Pg.76]

Chatrathi, K., Going, J. E., and Grandestaff, B. 2001. Flame Propagation m Industrial Scale Piping. Proc. AlChE 35th Annual Loss Prevention Symposium, Paper ID, April 22-26, 2001, Houston, TX. [Pg.74]

Briesch, E. M. 2000. NEC Group Classification of Mixtures. Paper 5d, AlChE 34th Annual Loss Prevention Symposium, March 6-8, 2000, Atlanta, GA. [Pg.133]

Venart, J. E. S. 1990. The Anatomy of a Boiling Liquid Expanding Vapor Explosion (BLEVE). 24th Annual Loss Prevention Symposium. New Orleans, May 1990. [Pg.246]

Dust Explosions, 28th Annual Loss Prevention Symposium, Atlanta,... [Pg.15]

Chemical Incompatibility Hazards While N2 and C02 may act as inerts with respect to many combustion reactions, they are far from being chemically inert. Only the noble gases (eg., Ar and He) can, for practical purposes, be regarded as true inerts. Frank (Frank, Inerting for Explosion Prevention, Proceedings of the 38th Annual Loss Prevention Symposium, AIChE, 2004) lists a number of incompatibilities for N2, C02, and CO (which can be present in gas streams from combustion-based inert gas generators). Notable incompatibilities for N2 are lithium metal and titanium metal (which is reported to burn in N2). C02 is incompatible with many metals (eg., aluminum and the alkali metals), bases, and amines, and it forms carbonic acid in water,... [Pg.37]

Are accidents always unforeseeable , Proceedings of the annual Loss Prevention Symposium AIChE, New Orleans, pp. 483-492. The remainder of this Chapter is based on a paper by Sonnemans P.J.M., Korvers P.M.W., Brombacher A.C., Beek van P.C., Reinders J.E.A., 2003. Accidents, often the result of an uncontrolled business process — a study in the (Dutch) chemical industry, Quality Reliability Engineering International 19(3), pp. 183-196. [Pg.107]

Korvers P.M.W., Sonnemans P.J.M., Beek van P.C., 2003. Are accidents always unforeseeable - learning from accident analysis, Proceedings of the 37th Annual Loss Prevention Symposium, AIChE, New Orleans, pp. 483-492. [Pg.149]

Forrest, H. S., L. S. Kirch, and G. R. Van Sciver (1989). "Worst Credible Case for Emergency Relief of Chemically Reacting Systems Questionnaire." 23rd Annual Loss Prevention Symposium, April 5, 1989, Houston, TX. [Pg.223]

Mosley, D. W., A. I. Ness, and D. C. Hendershot (2000). "Tools for Understanding Reactive Chemical Hazards Early in Process Development." Proceedings of the 34th Annual Loss Prevention Symposium, March 5-9, 2000, Atlanta, GA, ed. E. Scheier and D. C. Hendershot, Paper LPS 3d (45d). New York American Institute of Chemical Engineers. [Pg.226]

Schisla, R. M., P. N. Lodal, and M. A. Paulonis (1996). "Use of the Semenov Model for the Analysis of Runaway Reactions Induced in Pipelines by Electrical Tracing." Proceedings of the 30th Annual Loss Prevention Symposium, February 26-28, 1996, New Orleans, LA, ed. R. P. Benedetti, J. J. Rooney, and K. Chatrathi, Paper 13d. New York American Institute of Chemical Engineers. [Pg.226]

Annual Loss Prevention Symposium (CD ROM) CCPS Retrieved information... [Pg.401]

Arendt, J. S. A Chemical Plant Accident Investigation Using Fanlt Tree Analysis. ProceedimOT of 17th Annual Loss Prevention Symposium. Paper 11a, New York AIChE, 1983. [Pg.60]

Annual Loss Prevention Symposium, American Institute of Chemical Engineers, New York, 1st, 1967 29th, 1995. [Pg.103]

R. W. Pmgh, Proceedings of the 27th Annual Loss Prevention Symposium, Houston, Tex., Mar. 30,1993, Paper No. 8d. [Pg.104]

Reza, A. et al., Proceedings of 36th Annual Loss Prevention Symposium, 2002, 401, Amer. Inst. Chem. Eng. [Pg.41]

Griffin, M. L., Maintaining Plant Safety through Effective Process Change Control, 23d Annual Loss Prevention Symposium, AIChE, Houston, 1989. [Pg.123]

Anderson, Stan and R. W. Skloss, More Bang for the Buck Getting the Most from Accident Investigations, presented at the 25th Annual Loss Prevention Symposium, Pittsburgh, PA, 1991. [Pg.304]

Loss Prevention Committee, Safety, Health Division, AIChE, Proceedings of the 29th Annual Loss Prevention Symposium— Serial), December, 1995... [Pg.145]

See other pages where Annual loss prevention symposia is mentioned: [Pg.271]    [Pg.518]    [Pg.2322]    [Pg.2]    [Pg.546]    [Pg.546]    [Pg.31]    [Pg.34]    [Pg.352]    [Pg.395]    [Pg.143]   
See also in sourсe #XX -- [ Pg.518 ]



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