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Factors affecting ANFO fumes production.

Authors
Rowland-JH III; Mainiero-RJ
Source
Proc 26th Conf Explos Blasting Tech, Anaheim, California, February 13-16, 2000. Cleveland, Ohio: International Society of Explosives Engineers, 2000 Feb; :163-174
NIOSHTIC No.
20021058
Abstract
For many years there have been small scale tests available for evaluating the toxic fumes production by cap-sensitive explosives (DOT Class 1. l), but these could not be used with blasting agents due to the large charge sizes and heavy confinement required for proper detonation. Considering the extensive use of blasting agents in construction and mining, there is a need to determine the quantities of toxic fumes generated by blasting agents. At the International Society of Explosive Engineers Twenty Third Annual Conference on Explosives and Blasting Technique in 1997, the authors reported on a facility for detonating large (4.54 kg), confined blasting agent charges in a controlled volume that had been constructed at the National Institute for Occupational Safety and Health's Pittsburgh Research Lab's Experimental Mine. Since 1997, this facility has been used to collect data on toxic fumes produced by the detonation of various ammonium nitrate/fuel oil (ANFO) mixtures and several cap-sensitive explosives. ANFO composition ranging from 1 to 10 percent (pct) fuel oil have been studied. As expected from previous studies, with an increase in fuel oil content the carbon monoxide production increases, while nitric oxide and nitrogen dioxide production decrease. The detonation velocity varies from 3,000 to 4,000 m/set for the 1 to 10 pet range of fuel oil content, suggesting that ANFO mixes with improper fuel oil content may appear to detonate properly, while their fume production differs significantly from optimum. The study also considers such factors as degree of confinement, water contamination, and aluminum content on blasting agent fume production. Results indicate that water contamination of the ANFO has little effect on carbon monoxide production, but causes significant increase in nitric oxide and nitrogen dioxide production. Decreasing confinement from Schedule 80 steel pipe to 0.4-mm thick sheet metal also has little effect on carbon monoxide production, but significantly increases nitric oxide and nitrogen dioxide production. Adding 5 and 10 percent aluminum to the ANFO had no clear effect on carbon monoxide, nitric oxide, or nitrogen dioxide production.
Keywords
Mining-industry; Fumes; Explosives; Explosions; Nitrogen-oxides; Nitrogen-compounds; Oxides; Nitrogen-dioxides; Nitrates; Explosive-hazards
CODEN
PCETDN
CAS No.
630-08-0; 10102-43-9; 7429-90-5
Publication Date
20000201
Document Type
Conference/Symposia Proceedings
Fiscal Year
2000
NTIS Accession No.
NTIS Price
ISSN
0732-619X
NIOSH Division
PRL
Source Name
Proceedings of the 26th Annual Conference on Explosives and Blasting Technique, Anaheim, California, February 13-16, 2000
State
OH; PA; CA
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