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The aim of the study was to determine the agricultural usefulness of the ashes obtained following the combustion of wood of fourteen tree species (pear tree, apple tree, aspen, ash, alder, birch, poplar, hornbeam, pine, common walnut, oak, hazel, bird cherry and spruce) in home fireplaces. The following physical properties of the ashes were determined: colour, solubility, porosity, absorbability, compression strength, degree of fineness, moisture content and spreadability. In the ashes obtained from the combustion of wood in a fireplace furnace, the following parameters were determined: pH H2O, pHKCl (1 mole dm-3 KCl), pHCaCl2 (0.01 mole dm-3 CaCl2) and total alkalinity in terms of the suitability of ashes as a liming agent. The contents of Ctot. and Ntot. were determined with a CHNS/O elemental analyser by Perkin-Elmer and the contents of other elements (macronutrients and heavy metals) were specified using the method of atomic emission spectrometry with inductively coupled plasma ICP-AES. Wood ashes are a source of macronutrients for plants. Their contents can be presented in the following series of decreasing values: Ca > C > K > Mg > P > S > N. Out of 1 t of wood ash, approx. 160 kg C, 6 kg N, 20 kg P, 98 kg K, 302 kg Ca, 39 kg Mg and 18 kg S can be introduced into the soil. The content of heavy metals in the analysed ashes was low, and exceeded the acceptable standards for their content in waste materials intended for liming soils. The analysed ashes exhibit good physical and chemical properties. They can be suitable for use in agriculture as a liming agent to be applied on medium and heavy soils.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
191--196
Opis fizyczny
Bibliogr. 32 poz., tab., rys.
Twórcy
autor
- Siedlce University of Natural Sciences and Humanities, Faculty of Natural Science, Agronomy Institute, Soil Science and Plant Nutrition Department, Prusa 14, 08-110 Siedlce, Poland
autor
- Siedlce University of Natural Sciences and Humanities, Faculty of Natural Science, Agronomy Institute, Soil Science and Plant Nutrition Department, Prusa 14, 08-110 Siedlce, Poland
autor
- Siedlce University of Natural Sciences and Humanities, Faculty of Natural Science, Agronomy Institute, Soil Science and Plant Nutrition Department, Prusa 14, 08-110 Siedlce, Poland
autor
- Doctoral studies, Siedlce University of Natural Sciences and Humanities, Faculty of Natural Science, Poland
Bibliografia
- 1. Antonkiewicz J., Lošák T. 2007. The effect of hard coal ashes on the amount and quality of maize yield. Part 1. Heavy metals. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, LV(1), 7-15.
- 2. Antonkiewicz J. 2014. Effect of fly ashes and sewage sludge on Fe, Mn, Al., Si and Co uptake by grass mixture. Journal of Ecological Engineering, 15(3), 6-13.
- 3. Antonkiewicz J., Wiśniowska-Kielian B. 2014. Effect of furnace waste and municipal sewage sludge on the Ca, Mg, K, Na and P uptake by a mixture of grasses. Annales UMCS s. E, Agricultura, LXIX(2), 57-68. (In Polish)
- 4. Arvidsson H., Lundkvist H. 2003. Effects of crushed wood ash on soil chemistry in young Norway spruce stands. Forest Ecology Management, 176, 121-132.
- 5. Baran S., Wójcikowska-Kapusta A., Żukowska G., Bik-Małdzińska M., Wesołowska-Dobruk S. 2015. Influence of sludge-ash composts on some properties of reclaimed land. Archives of Environmental Protection, 41(2), 82-88.
- 6. Ciesielczuk T., Kulesza G., Nemś A. 2011. Fertilization with biomass ashes as a source of trace elements for soil. Environmental Protection and Natural Resources, 49, 219-227.
- 7. Ciesielczuk T., Rosik-Dulewska Cz., Kochanowska K. 2014. The influence of biomass ash on the migration of heavy metals in the flooded soil profile – model experiment. Archives of Environmental Protection, 40(4), 3-15.
- 8. Gibczyńska M., Stankowski S., Hury G., Kuglarz K. 2014. Effects of limestone, ash from biomass and compost use on chemical properties of soil. Soil Science Annual, 65(2), 59-64.
- 9. Kabata-Pendias A. 2011. Trace elements in soils and plants. CRC Press. 4th ed. Taylor and Francis Group. LLC. 253-254.
- 10. Kajda-Szcześniak M. 2014. Characteristics of ashes from fireplace. Archives of Waste Management and Environmental Protection, 16(3), 73-78.
- 11. Kalembasa S., Symanowicz B., Kalembasa D., Malinowska E. 2003. The possibility of receiving and processing of biomass from quick growth rate plants (energetic plants). In: Renewable energy sources. The new insights into sewage sludge, 49, 358-364. (In Polish).
- 12. Kalembasa D. 2006. The amount and chemical composition of ash obtained from biomass of energy crops. Acta Agrophysica, 7(4), 909-914. (In Polish)
- 13. Kołodziej B., Stachyra M., Antonkiewicz J., Bielińska E., Wiśniewski J. 2016. The effect of harvest frequecy on yielding and quality of energy raw material of reed canary grass grown on minicipal sewage sludge. Biomass and Bioenergy, 85, 363-370.
- 14. Kowalczyk-Juśko A. 2009. Ash from various energy plants. Proceeding of ECOpole, 3(1), 159-164. (In Polish)
- 15. Kowalczyk-Juśko A. 2017. The influence of the ash from the biomass on the power boiler pollution. Journal of Ecological Engineering, 18(6), 200-204.
- 16. Meller E., Bilenda E. 2012. Effect of ashes from biomass combustion on the physicochemical properties of light soils. Energy Policy, 15(3), 287-292. (In Polish)
- 17. Meller E., Bilenda E. 2013. Effect of ashes fertilization from biomass on yield and uptake of ingredients by common maize. Energy Policy, 16(3), 339-345. (In Polish)
- 18. Piekarczyk M., Kobierski M., Gałęzewski L. 2017. The influence of the application of barley, wheat and rape straw ash into sandy soil on the changes of soil reaction and the content of available phosphorus, potassium and magnesium. Acta Scientiarum Polonorum Agricultura, 16(3), 139-146.
- 19. PN – EN 12944-3 2004. Fertilizers and liming materials. Terminology. Part 3. The terms relating to liming materials, 4-5. (In Polish)
- 20. Regulation of the Minister of the Natural Environment on soil quality standards and earth quality standards, 9 September 2002. Journal of Laws of Poland, No 165, Item 1359. (In Polish)
- 21. Regulation of the Minister Economy on determining types of fertilizer lime, 19 May 2004. Journal of Laws of Poland, No 130, Item 1384. (In Polish)
- 22. Regulation of the Minister Agriculture and Rural Development on the implementation of some provisions of the Act on fertilizers and fertilization, 18 July 2008. Journal of Laws of Poland, No 119, Item 765. (In Polish)
- 23. Regulation Minister Economy on the manner of packing mineral fertilizers, placing information on fertilizer components on these packages, the method of testing mineral fertilizers and types of lime fertilizer dated 8 September 2010 Journal of Laws of Poland, No 183, Item 1229. (In Polish)
- 24. Regulation Commission (EU) relating to liming materials „EC fertilizer liming agent” No 463/2013 dated 17 May 2013. (In Polish)
- 25. Regulation of the Minister of the Natural Environment on catalog of wastes dated 9 December 2014. Journal of Laws of Poland, No 112, Item 1923. (In Polish)
- 26. Statistical yearbook (Central Statistical Office) 2015.
- 27. Symanowicz B, Kalembasa S. 2004. The content of iron and manganese in brown coals and their ashes. Annuals PZH, 55, 227-231. (In Polish)
- 28. Symanowicz B, Kalembasa S. 2005. Contents of boron, copper and zinc in brown coals and their ashes. Advances of Agricultural Sciences Problem, 502(2), 853-857. (In Polish)
- 29. Symanowicz B, Kalembasa S., Jaremko D., Niedbała M. 2013. Polish brown coals waste-potential source of plants nutrients. Annales UMCS s. E Agricultura, LXVIII (4), 21-27. (In Polish)
- 30. Wacławowicz R. 2011. Agricultural use of ashes from biomass combustion. Seminar. Management of biomass combustion by-products. Warsaw, 181 – 206. (in Polish)
- 31. Wrzosek J., Gworek B. 2010. Biomass a renewable energy source. Environmental Protection and Natural Resources, 43, 104-116.
- 32. Xiao R., Chen X., Wang F., Yu G. 2011. The physicochemical properties of different biomass ashes at different ashing temperaturę. Renewable Energy, 36, 244-249.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fd5c28f6-d164-4dd7-a604-d1f4e077b587