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Petrographic and Chemical Research on Furnace Wastes From Individual Heating Furnaces and Boilers – Method for Identification of Co-Burning Municipal Waste

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Numerous varieties of solid fuels have been employed for the production of heat in buildings and during cooking by utilizing furnaces and boilers. The most commonly used energy carriers include hard and brown coal, coke, and wood-based solid biofuels in the form of various types of pellets, briquettes, and chips. Notably, furnace and boiler users can combine these fuels in any way by changing their proportions. Generally, users of furnaces and boilers are known to co-burn solid fuels and various types of municipal waste. However, the municipal waste contains a number of organic compounds and toxic metals that can be released into the atmosphere during the combustion process; this poses a threat to the health of the environment and public. Herein, chemical and petrographic tests were performed to study the sources of furnace wastes. This research facilitates the identification of unacceptable substances such as plastics, metal filings, and glass.
Rocznik
Strony
110--119
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
  • Centralne Laboratorium Pomiarowo-Badawcze Sp. z o. o., Poland
  • University of Silesia, Poland
Bibliografia
  • 1. Reyna-Bensusan N., Wilson D. C., Smith S. R., (2018), Uncontrolled burning of solid waste by households in Mexico is a significant contributor to climate change in the country, Environmental Research 163, pp. 280-288
  • 2. Gulletta B. K., Lemieuxa P. M., Lutes C., Winterrowd C. K. Winters D. L. (2001), Emissions of PCDD/F from uncontrolled, domestic waste burning, Chemosphere, 43, pp. 721-725
  • 3. Solorzano-Ochoaa G., A.de la Rosaa D., Maiz-Larraldeb P., K.Gullettc B., G.Tabord D., Touatid A., Wyrzykowska-Ceradinid B., Fiedlere H., Abelf T., F. Carroll Jr.f W. (2012), Open burning of household waste: Effect of experimental condition on combustion quality and emission of PCDD, PCDF and PCB, Chemosphere 87, 9, pp. 1003-1008
  • 4. Edo M., Ortuño N., Persson P., A.Conesa J., Janssona S. (2018), Emissions of toxic pollutants from co-combustion of demolition and construction wood and household waste fuel blends, Chemosphere 203, pp. 506-513
  • 5. Ross, A B, Jones J M, Chaiklangmuang S, Pourkashanian M, Williams A, Kubica K. (2002), Measurement and Prediction of the Emission of Pollutant from the Combustion of Coal and Biomass in a Fixed Bed Furnace, Fuel 81, pp. 571-82
  • 6. Maasikmets M., Kupria H., Teinema E., Vainumäe K., Arumäe T., Rootsa O., Kimmel V. (2016), Emissions from burning municipal solid waste and wood in domestic heaters, Atmospheric Pollution Research 7, pp. 438-446
  • 7. Zhang T., Fiedler H., Yua G., Solorzano Ochoa G., William F.Carroll Jr. W., K.Gullette B., Marklund S., Touati A. (2011), Emissions of unintentional persistent organic pollutants from open burning of municipal solid waste from developing countries, Chemosphere 84, pp. 994-1001
  • 8. Das B., Bhave P., Sapkota A., M. Byanjua R. (2018), Estimating emissions from open burning of municipal solid waste in municipalities of Nepal, Waste Management 79, pp. 481-490
  • 9. Johansson L.S., Leckner B., Gustavsson L., Cooper D., Tullin C., Potter A., (2004), Emission characteristics of modern and old-type residential boilers fired with wood logs and wood pellets, Atmos. Environ. 38 pp. 4183-4195
  • 10. Naeher L.P., Brauer M., Lipsett M., Zelikoff J.T., Simpson C.D., Koenig J.Q., Smith K.R. (2007), Woodsmoke health effects: a review, Inhalation Toxicology, 19 pp. 67-106
  • 11. Wiedinmyer. C., Yokelson. R.J., Gullett. B.K. (2014), Global emissions of trace gases, particulate matter and hazardous air pollutants from open burning of domestic waste, Environ. Sci. Technol. 48, pp. 9523-9530
  • 12. Růžičková J., Raclavskáa H., Kucbela M., Raclavský K., Šafářa M., Švédová B. (2018), The possibilities to identify combusted fuel based on an analysis of ash from local heating, Journal of Environmental Management, 219, pp. 269-276
  • 13. Iwanek P., Jelonek I., Mirkowski Z. (2008), Wstępne badania popiołów z kotła fluidalnego w aspekcie ich zagospodarowania, Gospodarka Surowcami Mineralnymi. 24. Z. 4/4
  • 14. Morselli L., Passarini F., Bartoli M. (2002), The environmental fate of heavy metals arising from a MSW incineration plant, Waste Manage. 22: pp. 875-881.
  • 15. Horák J., Kuboňová L., Bajer S., Dej M., Hopan F., Krpec K., Ochodek T., (2019), Composition of ashes from the combustion of solid fuels and municipal waste in households, Journal of Environmental Management, 248, pp. 109-269
  • 16. Szulik W., (2018), Physicochemical properties of furnace wastes for co-combustion of solid fuels with municipal waste and oil wastes, Archives of Waste Managementand Environmental Protection, 20, 4. pp. 1-8
  • 17. Muzyka R., Chrubasik M., Pogoda M. et al. (2019) Py–GC–MS and PCA Analysis Approach for the Detection of Illegal Waste Combustion Processes In Central Heating Furnaces, Chromatographia, 82, pp. 1101-1109
  • 18. Grochowalski A., Konieczyński A., (2008) PCDDs/PCDFs, dl-PCBs and HCB in the flue gas from coal fired CFB boilers, Chemosphere, 73, 1, pp. 97-103
  • 19. Gaffney J., Marley N., (2009) The impacts of combustion emissions on air quality and climate – From coal to biofuels and beyond, Atmospheric Environment, 43, 1, pp. 23-36
  • 20. Suárez-Ruiz, I., Valentim, B., Borrego, A.G., Bouzinos, A., Flores, D., Kalaitzidis, S., Malinconico, M.L. Marques, M. Misz-Kennan, M. Predeanu, G. Montes, J.r. Rodrigues, S. Siavalas, G., Wagner, N. (2017), Development of a petrographic classification of fly-ash components from coal combustion and co-combustion (An ICCP Classification System, Fly-Ash Working Group – Commission III), International Journal of Coal Geology 183, pp. 188-203
  • 21. Suárez-Ruiz, I. i Valentim, B. (2015), Atlas of Fly Ash Occurrences Identification and Petrographic Classification of Fly Ash Components Working Group. Commission III – ICCP p. 203.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ea2b6a9d-fec8-4c11-9df5-e4f7bd23794d
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