Experimental and CFD Study on the Exhaust Efficiency of a Smoke Control Fan in Blind Entry Development Sites |
Nguyen, Vanduc
(Department of Energy and Mineral Resources Engineering, Dong-A University)
Kim, Dooyoung (Department of Energy and Mineral Resources Engineering, Dong-A University) Hur, Wonho (Department of Energy and Mineral Resources Engineering, Dong-A University) Lee, Changwoo (Department of Energy and Mineral Resources Engineering, Dong-A University) |
1 | Lee, C. W and Nguyen, V.D., 2015. Development of a Low-Pressure Auxiliary Fan for Local Large-opening Limestone Mines, Journal of Korean Society for Rock Mechanics, Tunnel and Underground Space, 25(6), pp. 543-555. |
2 | Lee, C.W and Nguyen, V.D, 2016. A study on the fire propagation characteristics in large-opening multi-level limestone mines in Korea. Geosystem Engineering, 19(6), pp. 317-336. |
3 | Park et al, 2017. A Comparative Study on the Auxiliary Fan Pressure and the Ventilation Efficiency in Large-opening Limestone Mine Airways, Journal of Korean Society for Rock Mechanics, Tunnel and Underground Space, 27(01), pp. 1-11. |
4 | Edwards J.C. et al., 2006. Experimental and modelling investigation of the effect of ventilation on smoke rollback in a mine entry, NIOSH. |
5 | Thyer A.M., 2002. Development of a fire and explosion risk assessment methodology for underground mines, Health and Safety Laboratory, UK. |
6 | Yuan L. et al., 2004. The effects of ventilation and preburn time on water mist extinguishing of diesel fuel pool fires, Journal of Fire Sciences, vol. 22, pp. 379-404. |
7 | Yuan L. et al., 2007. Experimental study of flame spread on conveyor belts in a small-scale tunnel, NIOSH. |
8 | Yuan L., 2006. Ignition of hydraulic fluid sprays by open flames and hot surfaces, NIOSH. |
9 | Zhou F. et al., 2005. Backdraft in descensionally ventilated mine fire, Zhou F. et al. (2005), Journal of Fire Sciences, vol. 23, pp. 261-271. |
10 | ANSYS, Inc., 2017, FLUENT User's Guide, Version 17.0, Canonsburg, PA, USA: ANSYS, Inc. |
11 | Bickel, KL., 1987. Analysis of diesel-powered mine equipment. Proceedings of the Bureau of Mines Technology Transfer Seminar: Diesels in Underground Mines. Information Circular 9141, US Bureau of Mines. |
12 | GRAMKO annual report 2005, SVEMIN, Sweden, 2005. |
13 | Chekan, G. J. et al., 2006. Impact of fan type for reducing respirable dust at an underground limestone crushing facility. In 11th US/North American Mine Ventilation Symposium 2006: Proceedings of the 11th US/North American Mine Ventilation Symposium, 5-7 June 2006, PA, USA (p. 203). CRC Press. |
14 | De Rosa M.I., 2004. Analysis of mine fires for all US metal/non-metal mining categories, 1990-2001, NIOSH. |
15 | Edwards J.C. et al., 1999. CFD analysis of mine fire smoke spread and reverse flow conditions, NIOSH. |
16 | FOSTER - MILLER associates, Inc., 1980. Foster - Miller's development of dry coal feed systems, Waltham, Massachusetts, US. |
17 | Goodman G.V. et al., 1992. Jet fan ventilation in very deep cuts: a preliminary analysis. Vol. 9399. US Department of the Interior, US Bureau of Mines. |
18 | Grau III, R. H. et al., 2002. Practical techniques to improve the air quality in underground stone mines, Ninth North American/US Mine Ventilation Symposium, Kingston, Ontario, Canada, pp. 123-129. |
19 | Grau III, R.H. et al., 2006. Maximizing the ventilation of large-opening mines, In Proceedings of the 11th US/North American Mine Ventilation Symposium, University Park, PA, USA, pp. 53-59. |
20 | Graul III, R. H., and Krog, R, 2009. Using mine planning and other techniques to improve ventilation in large-opening mines. Mining Engineering, 61(2), pp. 46. |