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Wanda Wilczyńska-Michalik, Renata Gasek, Marek Michalik, Janusz Dańko and Tadeusz Plaskota

., Stegemann, J. A., Williams, R., & Wood I. G. (2018). Element speciation in UK biomass power plant residues based on composition, mineralogy, microstructure and leaching. Fuel, 211, 712-725. DOI: 10.1016/j.fuel.2017.09.103. Bonner, I. J., Smith, W. A., Einerson, J. J., & Kenney, K. L. (2014). Impact of harvest equipment on ash variability of baled corn stover biomass for bioenergy. Bioenergy Research, 7, 845-855. DOI 10.1007/s12155-014-9432-x. Ciesielczuk, T., Kusza, G., & Nemś, A. (2011). Nawożenie popiołami z termicznego przekształcania biomasy źródłem

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Tomasz Ciesielczuk, Czesława Rosik-Dulewska and Katarzyna Kochanowska

References [1] Antonkiewicz, J. (2009). Use incineration ash for binding heavy metals in soils. Environmental Protection and Natural Resources, 41, 398–405 (in Polish). [2] Banach, A.M., Banach, K., Visser, E.J.W., Stępniewska, Z., Smits, A.J.M., Roelofs, J.G.M. & Lamers, L.P.M. (2009). Effects of summer fl ooding on fl oodplain biogeochemistry in Poland; implications for increased fl ooding frequency, Biogeochemistry, 92, 247–262. [3] Barbusiński, K. & Nocoń, W. (2011). Heavy Metal Compounds in the Bottom Sediments of the River Klodnica (Upper Silesia

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Katri Ots, Mall Orru, Mari Tilk, Leno Kuura and Karin Aguraijuja

ecosystemspotential benefits and drawbacks. – Plant Soil, 306, 1–2, 181–198. Bååth, E., Arnebrant, K. 1994. Growth rate and response of bacterial communities to pH in limed and ash treated forest soils. – Soil Biology and Biochemistry, 26, 995–1001. Barthelmes, A., Couwenberg, J., Risager, M., Tegetmeyer, C., Joosten, H. 2015. Peatlands and Climate in a Ramsar context. A Nordic-Baltic Perspective. Rosendahls-Schultz Grafisk. 245 pp. Biomassi ja bioenergia kasutamise edendamise arengukava aastateks 2007–2013. 2007. (Development plan for the promotion of biomass and

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Alicja Uliasz-Bocheńczyk, Aleksandra Pawluk and Michał Pyzalski

LITERATURA Berra i in. 2011 – Berra, M., De Casa, G., Dell’Orso, M., Galeotti, L., Mangialardi, T., Paolini, E.A. i Piga, L. 2011. Reuse of Woody Biomass Fly Ash in Cement-Based Materials: Leaching Tests [In:] H. Insam and B.A. Knapp (eds.). Recycling of Biomass Ashes . Berlin Heidelberg: Springer-Verlag, s. 133–146. Emitor 2014 Emisja Zanieczyszczeń Środowiska w Elektrowniach i Elektrociepłowniach Zawodowych. Agencja Rynku Energii, Warszawa. EU 2013 − Best Available Techniques (BAT) Reference Document for the. Large Combustion Plants . Joint

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Sławomir Stankowski, Magdalena Sobolewska, Anna Jaroszewska and Marzena Gibczyńska

nutrition. Tree Physiology 30(9): 1140–1147. Füzesi I., Heil B., Kovács G., 2015. Effects of Wood Ash on the Chemical Properties of Soil and Crop Vitality in Small Plot Experiments. Acta Silvatica & Lignaria Hungarica 11(1): 55–64. Gibczyńska M., 2000. The long lasting effects of liming on soil chemical properties in sandy soil. (Ed.), AR Szczecin: 1–112 pp. ISSN 0239-6467 (in Polish). Gibczyńska M., Stankowski S., Hury G., Kuglarz K., 2014. Effect of limestone, ash from Biomass and Compost Use on Chemical Properties of Soil. Soil Science Annual 65

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Marzena Gibczynska, Slawomir Stankowski, Grzegorz Hury and Krzysztof Kuglarz

References AntonMewicz J., 2009. Wykorzystanie popiołów paleniskowych do wiązania metali ciężkich występujących w glebie. (Use incineration ash for binding heavy metals in soil). Ochrona Środowiska i Zasobów Naturalnych 41: 398-405. Chaney R.L., Brown, S.L., Stuczyński, T.I., Daniels, W.L., Henry, CL., Yin-Ming Li, Siebielec G., Malik M., Angle J.S., Ryan J.A., Compton H., 2000. Risk assessment and remediation of soils contaminated by mining and smelting of lead, zinc and cadmium. Revista internacional de contaminación ambiental 16(4): 175-192. Ciećko Z

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M. Kosior-Kazberuk and D. Józwiak-Niedzwiedzka

References 1. V.G. Papadakis, S. Tsimas, Supplementary cementing materials in concrete. Part I: efficiency and design. Cement and Concrete Research, 32, 1525-1532, 2002. 2. F.J.M. Lamers, J.L.J. Vissers, J.W. van der Berg, Effects of co-combustion of secondary fuels on fly ash quality. Proc. of the 7th CANMET/ACI International Conference on Fly Ash, Silica Fume, Slag and Pozzolans in Concrete, 1, ACI, 433-457, 2001. 3. P. Grammelis, G. Skodras, E. Kakaras, Effect of biomass co-firing with coal on ash properties

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Alicja Uliasz-Bocheńczyk, Aleksandra Pawluk and Michał Pyzalski

-4526. Bauer et al. 2011 − Bauer, M. Gassen, N. Stanjek, H. and Peiffer, S. 2011. Carbonation of lignite fly ash at ambient T and P in a semi-dry reaction system for CO2 sequestration. Applied Geochemistry 26, pp. 1502-1512. Bobicki et al. 2012 − Bobicki, E.R. Liu, Q. Xu, Z. and Zeng, H. 2012. Carbon capture and storage using alkaline industrial wastes. Progress in Energy and Combustion Science 38, pp. 302-320. Dananjayan et al. 2016 - Dananjayan, R.R.T. Kandasamy, P. and Andimuthu, R. 2016. Direct mineral carbonation of coal fly ash for CO2

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Włodzimierz K. Kordylewski, Krzysztof J. Mościcki and Karol J. Witkowski

References Aho M., 2001. Reduction of chlorine deposition in FB boilers with aluminium-containing additives. Fuel, 80, 1943-1951. DOI: 10.1016/S0016-2361(01)00049-7. Chudek M., Hycnal J., Janiczek S., Plewa F., 1999. Lignite. Silesian University of Technology, Gliwice (in Polish). Fernández Llorentea M.J., Díaz Arocas P., Gutiérrez Nebot L., Carrasco García J.E., 2008. The effect of the addition of chemical materials on the sintering of biomass ash. Fuel, 87, 2651-2658. DOI: 10.1016/j.fuel.2008

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Modris Okmanis, Dagnija Lazdiņa and Andis Lazdiņš

References 1. Būmanis, K., Krasavcevs, I., Liše, S., & Stepiņa, A. (2012). Monitoring of wood biomass consumption for energy production. Research. Jelgava: MEKA, 78 pp. 2. Eijk, R. J., Obernberger, I., & Supancic, K. (2012). Options for increased utilization of ash from biomass combustion and co-firing. Report, KEMA Nederland B.V., Arnhem, the Netherlands, 39 pp. 3. Emilsson, S. (2006). From Extraction of Forest Fuels to Ash Recycling. International handbook. Swedish Forest Agency, 42 pp. 4. James, A. K., Thring, R. W., Helle, S., & Ghuman