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From sewage sludge ash to calcium phosphate fertilizers

Sludge. Pol. J. Appl. Chem., 2, 51-63. 26. Gorazda, K. (2004). Research on phosphorus recovery from sewage sludge formed after simultaneous municipal sewage treatment with the use of iron sulfate, as a phosphorus compounds precipitating agent . Unpublished doctoral dissertation, Cracow University of Technology, Cracow, Poland. 27. Gorazda, K., Wzorek, Z. & Jodko, M. (2005). Phosphorus compounds extraction from the ash after sewage sludge combustion. Pol. J. Chem. Technol., 7(1), 24-28. 28. Gorazda, K. & Wzorek, Z

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Ammonia Emission from Sewage Sludge Incineration Process

and new methods - A review. Renew Sust Energ Rev. 2008;12:116-140. DOI: 10.1016/j.rser.2006.05.014. [5] Kowarska B, Baron J, Kandefer S, Żukowski W. Incineration of municipal sewage sludge in a fluidized bed reactor. Engineering. 2013;5:125-134. DOI: 10.4236/eng.2013.51A018. [6] Werther J, Ogada T. Sewage sludge combustion. Prog Energ Combust. 1999;25:55-116. DOI: 10.1016/S0360-1285(98)00020-3. [7] Pohorely M, Svoboda K, Trnka O, Baxter D, Hartman M. Gaseous emissions from the fluidized-bed incineration of sewage sludge. Chem Pap. 2005

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Application of the TG-MS system in studying sewage sludge pyrolysis and gasification

References Werther, J. & Ogada, T. (1999). Sewage sludge combustion. Prog. Energy Combust. Sci. 25 (1), 55 - 116. Inguanzo, M., Domínguez, A., Menéndez, J. A., Blanco, C. G. & Pis, J. J. (2002). On the pyrolysis of sewage sludge: the influence of pyrolysis conditions on solid, liquid and gas fractions. J. Anal. Appl. Pyrolysis , 63 (1), 209 - 222. Ptasinski, K., Prins, M. & Pierik, A. (2007). Exergetic evaluation of biomass gasification. Energy , 32 (4), 568 - 574

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The influence of thermal processing of sewage sludge on the usage properties of the formed ash

after the sewage sludge combustion. Pol. J. Chem. Technol. 2005, 7, 24. Rzechuła J., Hupka J.: Charakterystyka i możliwości zagospodarowania popiołów i żużli ze spalania odpadów. Paliwa z Odpadów (Polish). 2003, 5, 243. Data of Główny Urząd statystyczny (Polish), 2002. / unpublished/ Steen I.: Phosphorus availability in the 21st century: Management of a non-renewable resources, Phosphorus Potassium. 1998, 217, 25. Driver J., Lijmbach D., Steen I.: Why recover

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‘Zero energy’ electron beam technology for sludge hygienization

., & Sawayama, S., Ogi, T., & Yokoyama, S. (1996). Organic composition of liquidized sewage sludge. Biomass Bioenerg ., 1 , 37–40. 4. El-Motaium, R., & Badawy, S. H. (2002). Irradiated sewage sludge for increased crop production – II. Effects on soil properties and tomato yields. In Irradiated sewage sludge for application to cropland (pp. 75–82). Vienna: IAEA. (IAEA-TECDOC-CD-1317). 5. Werther, J., & Ogada, T. (1999). Sewage sludge combustion. Prog. Energ. Combust ., 25 , 55–116. 6. Morgano, M. T., Leibold, H., Richter, F., Stapf, D., & Seifert, H

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Sludge Thermal Utilization, and the Circular Economy

and Technology, Earthscan, London, pp. 33-52. 25. Chan, YK and Xu, Z 2009. Biochar: nutrient properties and their enhancement, Lehmann, J and Joseph, S (Eds.). Biochar for Environmental Management: Science and Technology. Earthscan, London, pp. 67-84. 26. Kijo-Kleczkowska, A, Środa, K, Kosowska-Golachowska, M, Musiał, T and Wolski, K 2015. Mechanisms and kinetics of granulated sewage sludge combustion. 46, pp. 459-471, DOI: 10.1016/j.wasman.2015.08.015. 27. Cano, R, Pérez-Elvira, SI and Fdz-Polanco, F 2015. Energy Feasibility Study of Sludge Pre

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