References
- 1. Chmielewski, A. G., & Han, B. (2016). Electron beam technology for environmental pollution control. Top. Curr. Chem., 374, 68(30 pp.). DOI: 10.1007/s41061-016-0069-4.10.1007/s41061-016-0069-4
- 2. Central Statistical Office of Poland. (2018, December). Statistical yearbook of the Republic of Poland 2018 (Chapter II: Environmental protection, Table 13(24), p. 106). Retrieved January 24, 2019, from http://stat.gov.pl/obszary-tematyczne/roczniki-statystyczne/rocznikistatystyczne/rocznik-statystyczny-rzeczypospolitejpolskiej-2018,2,18.html.
- 3. Inoue, S., & 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. (2018). Screw pyrolysis technology for sewage sludge treatment. Waste Manage., 73, 487–495.
- 7. Adam, C., Peplinski, B., Michaelis, M., Kley, G., & Simon, F. -G. (2009). Thermochemical treatment of sewage sludge ashes for phosphorus recovery. Waste Manage. 29(3), 1122–1128.10.1016/j.wasman.2008.09.011
- 8. European Comission. (2001). Pollutants in urban waste water and sewage sludge, final report. London, UK. Retrieved February 13, 2019, from: http://ec.europa.eu/environment/archives/waste/sludge/pdf/sludge_pollutants.pdf.
- 9. El-Motaium, R., Ezzat, H. E. M., El-Batanony, M., Kreuzig, R., & Abo-El Seoud, M. (2002). Irradiated sewage sludge for increased crop production – I. Pathogens and polycyclic aromatic hydrocarbons. In Irradiated sewage sludge for application to cropland (pp. 67–73). Vienna: IAEA. (IAEA-TECDOC-CD-1317).
- 10. Strauch, D. (1991). Survival of pathogenic microorganisms and parasites in excreta, manure and sewage sludge. Rev. Sci. Tech. OIE, 10(3), 813–846.
- 11. European Union. (1986, June). EU Council Directive 86/278/EEC of 12 June 1986 on the protection of the environment, and in particular of the soil, when sewage sludge is used in agriculture.
- 12. Minister of Environment. (2010, July). Regulation of the Minister of Environment of 13 July 2010 on municipal sewage sludge. Dz. U., 2010, no. 137, item 924 (in Polish).
- 13. Minister of Economy. (2015, July). Regulation of the Minister of Economy of 16 July 2015 on the admission of waste for landfill. Dz. U., 2015, item 1277 (in Polish).
- 14. Dymaczewski, Z., Oleszkiewicz, J. A., & Sozański, M. M. (1997). Poradnik eksploatatora oczyszczalni ścieków. Poznań: Polskie Zrzeszenie Inżynierów i Techników Sanitarnych.
- 15. US Environmental Protection Agency. (1995). AP-42: Compilation of air emissions factors. Vol. 1: Stationary point and area sources, Chapter 2: Solid waste disposal. Retrieved February 13, 2019, from https://www3.epa.gov/ttn/chief/ap42/ch02/index.html.
- 16. Fiedler, H. (1996). Sources of PCDD/PCDF and impact on the environment. Chemosphere, 32(1), 55–64.10.1016/0045-6535(95)00228-6
- 17. Aparecida da Silva Aquino, K. (2012). Sterilization by gamma irradiation. In F. Adrovic (Ed.), Gamma radiation (Chapter 9, pp. 171–206). Rijeka: InTech. Available from: https://www.intechopen.com/books/gamma-radiation/sterilization-by-gamma-irradiation.
- 18. Chmielewski, A. G., Zimek, Z., Bryl-Sandelewska, T., Kosmal, W., Kalisz, L., & Kaźmierczuk, M. (1995). Disinfection of municipal sewage sludges in installation equipped with electron accelerator. Radiat. Phys. Chem., 46(4/6), 1071–1074.
- 19. Naign, T. T., & Lay, K. K. (2015). Utilization of gamma radiation in industrial wastewater treatment. International Journal of Mechanical and Production Engineering, 3(6), 1–5. Available from http://www.iraj.in/journal/journal_file/journal_pdf/2-148-14344558851-5.pdf.
- 20. Lessel, T., & Hennig, E. (1976). The pilot plant in Geiselbullach for the gamma irradiation, operation, experience and cost calculations. In Meeting of the European Society of Nuclear Methods in Agriculture, 8 June 1976, Muenchen, Germany (13 pp.). Retrieved December 21, 2018, from https://inis.iaea.org/collection/NCLCollectionStore/_Public/08/330/8330700.pdf.
- 21. Janlong, W., & Jazhuo, W. (2007). Application of radiation technology to sewage sludge processing: a review. J. Hazard. Mater., 143, 2–7.
- 22. International Atomic Energy Agency. (2007). Radiation processing: environmental applications. Vienna: IAEA. Available from https://www-pub.iaea.org/MTCD/publications/PDF/RPEA_Web.pdf.
- 23. Kim, Y., Han, B., Kim, J. K., Ben Yaacov, N., & Jeong, K. Y. (2005). Design of electron beam sludge hygienisation plant. Retrieved February 18, 2019, from: https://pdfs.semanticscholar.org/81ff/f088f4e2fbea265d8faa685f83b47c53a800.pdf.
- 24. Chmielewski, A. G., Berbeć, A., Zalewski, M., & Dobrowolski, A. (2012). Hydraulic mixing modelling in reactor for biogas production. Chem. Process Eng., 33(4), 621–628. DOI: 10.2478/v10176-012-0052-8.10.2478/v10176-012-0052-8
- 25. Kryłowicz, A., Chrzanowski, K., & Usidus, J. (2008). Method and system of transport and housing of biomass slurry in a hydroliser and fermenter. Polish Patent No. 197595. Warsaw: Polish Patent Office (in Polish).
- 26. Chmielewski, A. G., Palige, J., Roubinek, O., Zimek, Z., Gryczka, U., Usidus, J., Pietrzak, K., & Edgecock, R. (2016). Method of wastewater hygielization. Polish Patent application. P-419131. Warsaw: Polish Patent Office (in Polish).