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References [1] PÓŁKA, M., WOLIÑSKI, M., KUKFISZ, B., SALAMONOWICZ, Z. 2014. Analysis of susceptibility to ignition of dust layer and dust coud of selected hardened unsaturated polyester resins, Polimery , 59 (11-12), 805-810. ISSN 0032-2725 [2] TAVEAU, J. 2014. Application of dust explosion protection systems. Procedia Engineering . 84 , 297 – 305. ISSN 1877-7058 [3] AMYOTTE, P. R., ECKHOFF, R.K. 2010. Dust explosion causation, prevention and mitigation: An overview. Journal of Chemical Health & Safety , 17 (1), 15 – 28. ISSN 1871-5532 [4] EBADAT, V. 2010

References 1. MALAŤÁK, J., VACULIK, P. 2008. Biomass for energy production. Praha: Powerprint s.r.o. ISBN 978-80-213-1810-6 2. BALOG, K., TUREKOVA, I. 2008. Fire hazard of food dust . Ostrava: SPBI Spektrum, 2008. ISSN: 1211-6920 3. OLLSON, M. Wood pellets as low-emitting residential biofuel. Göteborg: Sweden, [online] 2002. [cit. 2013-03-1] Available at: http://publications.lib.chalmers.se/records/fulltext/5787.pdf 4. STN EN 50281-2-1 Electrical apparatus for use in the presence of combustible dust, Part 2-1: Test Methods. Methods for determining the minimum

). Zur fluiddynamik von gerührten gas/feststoff/fltssigkeits-systemen. Chem. Ing. Tech. 61, 978–979 (in German). 4. Brauer, H., Dyląg, M. & Talaga, J. (1996). Modellvorstellung zur entstehung der vollständigen suspension im rühbehälter. Forsch. Ingenieurwes 62, 239–245 (in German). 5. Dyląg, M. & Talaga, J. (1995). Modeling of multiphase flows. Chem. Process Eng. 16(3), 407–420. 6. Kabsch, M. (1976). Methods of dust wettability measurements. Wrocław, Poland: Wroclaw University of Technology Publisher (in Polish). 7. Nazarow, G., Krawczyk J., Blinicziew, W

References Cargo turnover in ports of Latvia 1996 - 2008 / http://www.transport.lv/doc_upl/latvia_12eng.pdf Lēvalde V. Gerhards sliecas ogļu stacijas projektu realizēt Liepājā // Dienas Biznes - (2008., 9.aprīlis) / http://www.db.lv/Default2.aspx?ArticleID=b8f655e0-35bc-4487-925c-650a5b4e3084&ref=rss Directive 2008/50/EC of the European Parliament and of the Council on ambient air quality and cleaner air for Europe // Official Journal of the European Union - L 152/1 (June 11, 2008) Nicol S. K., Smitham J. B. Coal Stockpile Dust Control // 1990 International

References ABBASI, S.A. (2007).: Dust explosions - Cases, causes, consequences, and control. In Journal of Hazardous Materials , Elsevier, 2008 ISSN 0304-3894. ABBOTT, J.A. (1990).: Prevention of Fires and Explosions in Dryers , Institution of Chemical Engineers, Rugby, UK. 1990 ISBN 0 85295 2570. BARTON, J. (2002).: Dust explosion prevention and protection , A practical guide, Gulf Professional Publishing, Woburn, Massachusets USA 2002 ISBN 0 7506 7519 3. BS2955: (1958).: Glossary of Terms Relating to Powders, No. 505, British Standard Institute, London, 1958

REFERENCES [1] F. Akbar-Khanzadeh, S. A. Milz, C. D. Wagner, M. S. Bisesi, A. L. Ames, S. Khuder, P. Susi and M. Akbar-Khanzadeh. “Effectiveness of Dust Control Methods for Crystalline Silica and Respirable Suspended Particulate Matter Exposure During Manual Concrete Surface Grinding”. Journal of Occupational and Environmental Hygiene , vol. 7, no. 12, pp. 700-711, 2010. [2] G. N. Carlton, K. B. Patel, D. L. Johnson and T. A. Hall. “The Effectiveness of Handheld Ventilated Sanders in Reducing Inhalable Dust Concentrations”. Applied Occupational and

REFERENCES Automatic and air atomizing spray nozzles. [online] Spraying Systems Co. Available at: https://www.spraying.pl/literature_pdfs/CAT76AA_METRIC.pdf [Accessed 25 June. 2019]. Bałaga D., Kalita M. Siegmund M. and Klimek Z. (2019). Measurements of dust concentration work stations of a hard coal mine processing plant after the NEPTUN spraying system. IOP Conf. Ser.: Mater. Sci. Eng.545 012005 Bałaga D., Jedziniak M., Kalita M., Siegmund M. and Szkudlarek Z (2015). Metody i środki zwalczania zagrożeń pyłowych i metanowych w górnictwie węglowym. Masz. Gór

References 1. POLKA, M., SALAMONOWICZ, Z., WOLINSKI, M., KUKFISZ, B. 2012, Experimental analysis of minimal ignition temperatures of a dust layer and clouds on a heated surface of selected flammable dusts. In: Procedia Engineering, 45, p. 414 - 423, ISSN: 1877-7058 2. BLAIR, A., S. 2007. Dust explosion incidents and regulations in the United States. In: Loss Prevent. Process Ind ., 20, p. 523-529. ISSN: 0950-4230 3. ZALOSH, R., G. 2003. Industrial Fire Protection Engineering . Wiley, p. 132, ISBN: 978-0471496779 4. DYDUCH, Z., MAJCHER, B. 2006. Ignition of a

References 1. DAMEC, J. 1998. Protivýbuchová prevence (Anti-explosion prevention). Ostrava: Sdružení požárního a bezpečnostního inženýrství v Ostravě, 1998. 188 p. ISBN 80-86111-21-0 2. DAMEC, J. et al. 1999. Protivýbuchová prevence v potravinářství a zemědělství (Antiexplosion prevention in food industry and agriculture) . Ostrava: Sdružení požárního a bezpečnostního inženýrství v Ostravě, 1999. 182 p. ISBN 80-86111-41-5 3. MARTINKA, J. et al. 2011. Effect of whirled teak wood dust particle size to the minimal ignition temperature. In: New trends in research

References Abdel-Rahman A.M., 2012. Effect of cement dust pollution on the yield and quality of Ficus carica L. fruits. J. Life Sci. 6(3): 276-282. Alexieva V., Sergiev I., Mapelli S., Karanov E., 2001. The effect of drought and ultraviolet radiation on growth and stress markers in pea and wheat. Plant, Cell Environ. 24(12): 1337-1344. Alizadeh A., Alizade V., Nassery L., Eivazi A., 2011. Effect of drought stress on apple dwarf rootstocks. Tech. J. Engin. App. Sci. 1(3): 86-94. Azhiri-Sigari T., Yamauchi A., Kamoshita A., Wade L.J., 2000. Genotypic variation in