An appraisal of the properties of bottom waste obtained from bio-mass congestion to estimate the ways of its environmental use

• Autorzy: Śliwka M. , Uliasz-Bocheńczyk A. , Pawul M.

Identyfikatory

DOI

10.1515/pjct-2017-0024

• Języki publikacji: EN

Abstrakty

EN

The bottom waste obtained from bio-mass burning shows a huge variability of chemical and physical properties, depending on the kind of bio-mass, the type of a cauldron and burning parameters. The huge variability of the bottom ashes from the incineration plant and co-combustion of bio-mass makes it difficult to find any way to its management. In reality, only the bottom ashes from coal combustion and the small amount from lignite combustion are used, mainly in the building industry and in mining industry. The article presents the initial research, concerning the estimation of the properties of the bottom ashes obtained from bio-mass congestion in the fluidized-bed boiler to use them safely for the environment. To determine the influence of the tested waste on plants, a number of pot experiments have been conducted. The plants which have been used are recommended for phytotoxicity estimation, and are also used for biological reclamation.

Słowa kluczowe

EN

bottom waste; bottom ashes; bio-mass combustion; bio-mass; fluidized-bed boiler; bio-tests; phytotests; energy wastes; furnace waste

• Wydawca: West Pomeranian University of Technology. Publishing House
• Czasopismo: Polish Journal of Chemical Technology
• Rocznik: 2017
• Tom: Vol. 19, nr 2
• Strony: 33--37
• Opis fizyczny: Bibliogr. 16 poz., rys., tab.

Twórcy

autor

Śliwka M.

• AGH – University of Science and Technology, Faculty of Mining and Geoengineering, Department of Environmental Engineering and Mineral Processing, al. Adama Mickiewicza 30, 30-059, Krakow, Poland

autor

Uliasz-Bocheńczyk A.

• AGH – University of Science and Technology, Faculty of Mining and Geoengineering, Department of Environmental Engineering and Mineral Processing, al. Adama Mickiewicza 30, 30-059, Krakow, Poland

autor

Pawul M.

• AGH – University of Science and Technology, Faculty of Mining and Geoengineering, Department of Environmental Engineering and Mineral Processing, al. Adama Mickiewicza 30, 30-059, Krakow, Poland

Bibliografia

• 1. Energy Market Agency. (2013). Emitor. Emission of envirmnental pollution from heating plants and power plants. Warsaw (in Polish).
• 2. Galos, K., Gawlicki, M., Hycnar, E., Lewicka, E., Nieć, M., Ratajczak, T. & Szlugaj, J., Wyszomirski P. (2009). Raw materials from mineral waste. Ed. IGSMIE PAN, Krakow (in Polish).
• 3. Regulation of the Minister of Environmental of 9 December 2014 on Catalog of Wastes (2014). (Journal of Laws 2014, pos. 1923 (in Polish).
• 4. Energy Market Agency. (2014). Emitor. Emission of envirmnental pollution from heating plants and power plants. Warsaw (in Polish).
• 5. Uliasz-Bocheńczyk, A., Mazurkiewicz, M., Mokrzycki, E. (2015). Fly ash from energy production – a waste, by product and raw material. Gospod. Surow. Miner. 31, 139–150. DOI: 10.1515/gospo-2015-0042
• 6. Energy Market Agency. (2015). Emitor. Emission of envirmnental pollution from heating plants and power plants. Warsaw (in Polish).
• 7. Antonkiewicz, J. (2009). The use of bottom ash to bind of heavy metals in soil. Ochr. Śr. Zasobów Nat. 41, 398–405 (in Polish).
• 8. Poluszyńska, J. (2013). Possibility of using ashes from biomass combustion in the management of sewage sludge. Pr. Inst. Cer. Mater. Bud. 13, 49–59. Opole (in Polish).
• 9. Portal of the National Forum of Biomass Combustion. Retrieved February 29, 2016, from www.spalaniebiomasy.pl
• 10. Traczewska, T.M. (2011). Biological methods to assess of environmental pollution. Ed. Wroclaw University of Technology (in Polish).
• 11. Śliwka, M., Baran, A. & Wieczorek, J. (2013). Evaluation of toxic metal bioaccumulation in a reservoir of flotation tailings. Pol. J. Environ. Stud. 22(3) 909–914.
• 12. Baran, A. Śliwka, M. & Lis, M. (2013). Selected properties of flotation tailings wastes deposited in the Gilów and Żelazny Most waste reservoirs regarding their potential environmental management. Arch. Mining Sci. 58(3) 969–978. DOI: http://dx.doi.org/10.2478/amsc-2013-0068
• 13. Góral, S. (2001). Plants in protection end reclamation of soils. Inżynieria Ekologiczna 3, 161–178 (in Polish).
• 14. Góral, S. & Rola S. (2001). Grasses on the ashes from power plants fertilized with sewage sludge. Inż. Ekol. 3, 146–150 (in Polish).
• 15. Dyguś, K.H., Siuta, J., Wasiak, G. & Madej, M. (2012). Plants of municipal and industrial waste landfills. Monography. Publishing House of the University of Ecology and Management in Warsaw (in Polish).
• 16. Kabata-Pendias, A. (2011). Trace Elements in Soils and Plants (4th ed.). CRC Press Taylor & Francis Group, LLC.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).