Yahoo Search Búsqueda en la Web

Resultado de búsqueda

  1. 1 de ene. de 2015 · This paper presents a fume risk assessment matrix of explosives components and physical attributes as a function of a simple description of ground conditions. Instrumentation to provide a measure of the quality of the explosive product are also described and these include both “on bench” physical measurements and laboratory analysis.

  2. Quality control of bulk explosive products to minimize the risk of fumes. G. Cavanough, A. Torrance, +2 authors. A. Olsson. Published 2015. Engineering, Environmental Science, Chemistry. No Paper Link Available. Save to Library. Create Alert. Cite. Sorry, we did not find any related papers.

  3. Author: Onederra, I. Author: Nipperess, M. Author: Olsson, A. 2015/01/01. The University of Queensland's institutional repository, UQ eSpace, aims to create global visibility and accessibility of UQ’s scholarly research.

  4. 2 de sept. de 2022 · Results were compared with those obtained with a commercially available bulk emulsion explosive, highlighting that the performance improvement achieved by the proposed emulsion modification method is not limited to artificial test conditions, but translates well into actual application conditions.

  5. detonation of an explosive. Most commercial blasting products are oxygen-balanced to minimize the fumes and optimize the energy they release. Fumes are an important consideration in confined spaces—for example, tunnels and shafts—and should be considered under surface-blasting scenarios where fumes could travel offsite and impact nearby ...

  6. protect workers and the public from the potential hazards of explosive-related toxic fumes are discussed. These include: • Minimizing the quantity of toxic fumes produced. • Determining where the fumes may go so workers and neighbors can be moved out of harm’s way. • Preventing the fumes from moving towards workers and neighbors.

  7. 13 de ene. de 2023 · Ali, F., et al. report on using waste lubricant oil as a partial substitute for fuel oil in ANFO formulations. They found that the formulations exhibited both effective explosive performance and were within the permissible limit for toxic fumes and particulate formation .