1. 1) Lemkowitz, S. M. and Pasman, H. J. (2013): discuss particulate fire and explosion risks in “Assessment and Control of Fire and Explosion Hazards and Risks of Particulates”, Chapter 4, Merkus, H. G. and Meesters, G. M. H. (Editors), “Particulate Products—Design Properties for Performance Optimization”, pp. 77–120, .Springer, 2013 (ISBN: 978-3-319-00713-7).
2. 2) While dust explosion hazards are extensively studied, much less is available for mist explosions. Examples are: Gant, S, Bettis, R., Santon, R., Bickland, I., Bower, Ph. and Kay, P. (2012), “Generation of Flammable Mists from High Flash-point Fluids: Literature Review”, presented at Institution of Chemical Engineers, XXIII Conference, Southport, UK, 12–15 November 2012, available as: http://s177835660.websitehome.co.uk/research/gant_bettis_santon_buckland_bowen_kay_2012_mists_lit_review_preprint.pdf, 19 pages;
3. 2) Förster, H. (2004), Chapter 5, “Properties of Flammable Mists and Foams”, p. 419–480, from M. Hattwig, M. and Steen, H., “Handbook of Explosion Prevention and Protection”, Wiley-VCH, 2004 (ISBN: 3-527-30718-4);
4. 2) Krishna, K., Rogers, W. J. and Mannan, M. S. (2003), “The use of aerosol formation, flammability, and explosion information for heat-transfer fluid selection”, Journal of Hazardous Materials 104, pp. 215–226;
5. 2) Holness, M. H. and Smith, B. J. (2002), “Oil Mist and Machinery Space Fires”, Marine Technology, 39(1), 2002, pp. 62–66;