This work is licensed under the Creative Commons Attribution-ShareAlike 4.0 International License.
De Rosa M.I. 2004 Analysis of mine fires for all US metal/non-metal mining categories, 1990–2001. NIOSHSearch in Google Scholar
Hansen R. 2018 Fire statistics from the mining industry in New South Wales, Queensland and Western Australia. Brisbane: The University of QueenslandSearch in Google Scholar
Svenska Gruvföreningen 1985 Alternativ till utrymningsväg från gruva och annan underjordsanläggning. Svenska GruvföreningenSearch in Google Scholar
Hansen R., Ingason H. 2013 Full scale fire experiments with mining vehicles in an underground mine. Research report SiST 2013:2. Västerås: Mälardalen UniversitySearch in Google Scholar
Hansen R. (2015) Analysis of methodologies for calculating the heat release rates of mining vehicle fires in underground mines. Fire Safety Journal, vol 71, pp 194-216Search in Google Scholar
Wachowicz J. 1997 Heat release rate in evaluation of conveyor belts in full-scale fire tests. Fire and Materials, vol. 21, pp 253-257Search in Google Scholar
Numajiri F., Furukawa K. 1998 Short Communication: Mathematical Expression of Heat Release Rate Curve and Proposal of ‘Burning Index. Fire and Materials, vol. 22, pp. 39–42Search in Google Scholar
National Fire Protection Association 2018 NFPA 92, standard for smoke control systems, 2018 edn. NFPA, QuincySearch in Google Scholar
Hansen R. 2021 Design Fire Scenarios Involving Non-Fire Resistant Conveyor Belts – Numerical Study. International Journal of Mining, Materials, and Metallurgical Engineering, vol 7, pp 1-15Search in Google Scholar
Janssens M.L. 1991 Measuring rate of heat release by oxygen consumption. Fire Technology, vol 27, pp 234–249Search in Google Scholar
Hansen R. 2010 Site inventory of operational mines – fire and smoke spread in underground mines. University of Mälardalen, MdH SiST 2010:1, Västerås, SwedenSearch in Google Scholar
Janssens M. 1991 Piloted ignition of wood: A review. Fire and Materials, vol 15, pp 151-167Search in Google Scholar
Zhong L., Zhou T., Wang J. 2017 Flammability properties of typical aviation functional oils. IOP Conference Series: Materials Science and Engineering 241 012037Search in Google Scholar
Chen X., Lu S., Li C., Zhang J., Liew K.M. 2014 Experimental study on ignition and combustion characteristics of typical oils. Fire and Materials, vol 38, pp 409-417Search in Google Scholar
Ingason H., Wickström U. 2007 Measuring incident radiant heat flux using the plate thermometer. Fire Safety Journal, vol 42, pp 161-166Search in Google Scholar
Arvidson M., Ingason H. 2005 Measurement of the efficiency of a water spray system against diesel oil pool and spray fires. SP Fire Technology, SP Report 2005:33, Swedish National Testing and Research InstituteSearch in Google Scholar
Ingason H., Hammarström R. 2010 Fire test with a front wheel loader rubber tyre. SP Fire Technology, SP Report 2010:64Search in Google Scholar
Mealy C., Benfer M., Gottuk D. 2011 A Study of the Parameters Influencing Liquid Fuel Burning Rates. Fire Safety Science, vol 10, pp 945-958Search in Google Scholar
Ohlemiller T., Shaub W. 1988 Products of wood smolder and their relation to wood-burning stoves. NBSIR 88-3767. Washington, DC: National Bureau of StandardsSearch in Google Scholar
Hansen R. 2022 Reviewing conditions on a mining vehicle for possible ignition and fire behaviour – flammable and combustible liquids. The University of Queensland, BrisbaneSearch in Google Scholar
Martínez J.D., Puy N., Murillo R., García T., Navarro M.V., Mastral A.M. 2013 Waste tyre pyrolysis – A review. Renewable and Sustainable Energy Reviews, vol 23, pp 179-213Search in Google Scholar
Janowska G., Kucharska-Jastrząbek A., Rybiński P., Wesołek D., Wójlik I. 2010 Flammability of diene rubbers. Journal of Thermal Analysis and Calorimetry, vol 102, pp 1043-1049Search in Google Scholar
Totten G.E., De Negri V.J. 2011 Handbook of hydraulic fluid technology. CRC Press, LondonSearch in Google Scholar
Deleanu L., Georgescu C., Ciortan S., Solea L.C. 2015 Flammability of emulsions on hot surfaces. Industrial Lubrication and Tribology, vol 67, pp 434-440Search in Google Scholar
Shaw A., Epling W., McKenna C., Weckman B. 2010 Evaluation of the Ignition of Diesel Fuels on Hot Surfaces. Fire Technology, vol 46, pp 407–423Search in Google Scholar
Severy D.M., Blaisdell D.M., Kerkhoff J.F. 1974 Automotive collision fires. In: Proc. 18th Stapp Car Crash Conf., Society of Automotive Engineers, Warrendale PA, pp. 113–199Search in Google Scholar
Lönnermark A., Kristensen P., Helltegen M., Bobert M. 2008 Fire Suppression and Structure Protection for Cargo Train Tunnels: Macadam and Hotfoam. ISTSSSearch in Google Scholar
White D., Beyler C.L., Fulper C., Leonard J. 1997 Flame spread on aviation fuels. Fire Safety Journal, vol 28, pp 1-31Search in Google Scholar
Hottel H.C. 1931 Radiant heat transmission between surfaces separated by non-absorbing media. Trans. ASME, vol 53, pp 265-273Search in Google Scholar
Chung B.T.F. 1972 Radiation shape factors from plane point sources. Journal of Heat Transfer, vol 94, pp 328-330Search in Google Scholar
Hansen R. 2019 Design of fire scenarios for Australian underground hard rock mines – Applying data from full-scale fire experiments. Journal of Sustainable Mining, vol 18, pp 163-173Search in Google Scholar
Babrauskas V., Grayson S.J. 1992 Heat Release in Fires. Chapman and Hall, LondonSearch in Google Scholar
Sparrow E.M. 1962 A new and simpler formulation for radiative angle factors. Journal of Heat Transfer, vol. 85, pp. 81-88Search in Google Scholar
Axelsson J., Van Hees P., Blomqvist P. 2002 Cable Fire in Difficultly Accessible Areas. SP Report 2002:12, Swedish National Testing and Research InstituteSearch in Google Scholar
National Fire Protection Association 2021 NFPA 204, standard for smoke and heat venting, 2021 edn. NFPA, QuincySearch in Google Scholar