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References Szewczyk, K. W. (2006). Produkcja metanu z surowców roślinnych, Przem.Chem. 85 (8-9), 1321 - 1323. Batstone, D. J., Keller, J., Angelidaki, I., Kalyuzhnyi, S. V., Pavlostathis, S. G., Rozzi, A., Anders, W. T.M., Siegrist, H., & Vavilin, V. A. (2002). The IWA Anaerobic Digestion Model No 1 (ADM1), Wat.Sci.Technol. 45 (10), 65 - 73. Batstone, D. J., Keller, J. & Steyer, J. P. (2006). A review of ADM1 extensions, applications, and analysis: 2002 - 2005, Wat.Sci.Technol. 54, 1 - 10. Batsone, D. J., Keller, J., Angelidaki, I., Kalyuzhnyi, S. V

–262. 7. Andrews, J.F., & Graef, S.P. (1971). Dynamic modeling and simulation of the anaerobic digestion process. Advances in Chemistry Series (Am. Chem. Soc.) , 105 , 126. 8. Haugen, F., Bakke, R., & Lie, B. (2013). Adapting dynamic mathematical models to a pilot anaerobic digestion reactor. Modeling, Identification and Control, 34 , 35–54. 9. Dewil, R., & Lauwers, J. (2011). Anaerobic digestion of biomass and waste: Current trends in mathematical modeling. IFAC Proceedings Volumes , 44 , 5024–5033. 10. Presura, A., Robescu, L., & Panaitescu, I. (2010). Modeling

References [1] Appels L., van Assche A., Willems K., van Impe J. & Dewil R. (2011). Peracetic acid oxidataion as an alternative pre-treatment for the anaerobic digestion of waste activated sludge. Bioresources Technology , 102, 4124-4130, doi:10.1016/j.biortech.2010.12.070. [2] Bhattacharya S.K., Madura R.L., Walling D.A. & Farrel J.B. (1996). Volatile solids reduction in two-phase and conventional anaerobic sludge digestion. Water Research , 30, 1041-1048, doi:10.1016/0043-1354(95)00252-9. [3] Borowski S. & Szopa J.S. (2007). Experiences with the dual

REFERENCES [1] AGRO-EKO spol. s. r. o., Ostrava. EN: Transformation process of biologically degradable, sanitary non-stabilized substrate to sanitary stabilized product. HOLUŠA V., VANÍČEK P., ŠINDELÁŘ D. Czech Republic. Patent no. 295922. 2005. [2] ĐOKIĆ D., LUGIĆ Z., TERZIĆ D., JEVTIĆ G., MILENKOVIĆ J., HÚRKA M., STANISAVLJEVIĆ R. Processing biodegradable waste by applying aerobic digester EWA. Acta Agriculturae Serbica . 2014, 19 (38), 133-142. [3] GUENDOUZ J., BUFFIÈRE P., CACHO J., CARRÈRE M., DELGENES J.P. Dry anaerobic digestion in batch mode: Design and

-87553-235-7. Ezekoye V.A., Ezekoye B.A. (2009): Characterization and Storage of Biogas Produced from the Anaerobic Digestion of Cow Dung, Spent Grains/Cow Dung, and Cassava Peels/Rice Husk. Pacific Journal of Science and Technology 10(2): 898-904. Ezekoye V.A., Okeke C.E. (2006): Design, Construction, and Performance Evaluation of Plastic Biodigester and the Storage of Biogas. Pacific Journal of Science and Technology 7(2): 176-184. FAOSTAT (2011): Global rice production by year, Food and Agriculture Organization of the United Nations. Retrieved on 10th October 2011 from http

References El-Mashad, H. M. & Ruihong, Z. (2010) Biogas production from co-digestion of dairy manure and food waste. Bioresource Technology , 101 (11), 4021-4028. DOI: 10.1016/j.biortech.2010.01.027. Murto, M., Bjornsson, L. & Mattiasson, B. (2004) Impact of food industrial waste on anaerobic co-digestion of sewage sludge and pig manure. Journal of Environmental Management. 70 (2), 101-107. DOI:10.1016/j.jenvman.2003.11.001. Callaghan, F. J., Wase, D. A. J., Thayanithy, K. & Forster, C. F. (1999) Co-digestion of waste organic solids: Batch studies

References APHA (2012) Standard Methods for the Examination of Water and Wastewater, 22nd ed. American Public Health Association, American Water Works Association, Water Environment Federation, Washington, DC, USA. Ariunbaatar, J., Panico, A., Esposito, G., Pirozzi, F. & Lens, P.N.L. (2014). Pretreatment methods to enhance anaerobic digestion of organic solid waste, Applied Energy, 123, pp. 143-156. Carrère, H., Dumas, C., Battimelli, A., Batstone, D.J., Delgenes, J.P., Steyer, J.P. & Ferrer, I. (2010). Pretreatment methods to improve sludge anaerobic

References [1] Ahn, Y.H., Hwang, I.S. & Min, K.S. (2004). ANAMMOX and partial denitrifition in anaerobic nitrogen removal from piggery waste, Water Science Technology , 49, 145–153. [2] Appels, L., Baeyens, J., Degréve, J. & Dewil, R. (2008). Principles and potential of the anaerobic digestion of waste-activated sludge, Progress in Energy and Combustion Science , 34, 755-781, DOI:10.1016/j. pecs.2008.06.002. [3] Bitton, G. (2005). Wastewater microbiology, Wiley-Liss, New Jersey. [4] Boe, K. (2006). Online monitoring and control of the biogas process, Technical

., Bocheński D., Myszograj S., Suchowska-Kisielewicz M., Green energy from biogas in a Polish-German sewage treatment plant. Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 35, 13, 1249-1255, (2013). 8. Sadecka Z., Weiss E., Myszograj S., Processing of sewage sludge with energy recovery in a wastewater treatment plant, Environment Protection Engineering, 38, 3, 97-105, (2012). 9. Myszograj S., Biochemical methane potential as indicator of biodegradability of organic matter in anaerobic digestion process, Annual Set the Environmental Protection

of digestion methods for sewage sludge using the placket-Burman saturated design, Fresenius’ Journal of Analytical Chemistry, 361, 164-167. [11] Madsen, M., Holm-Nielsen, J.B., & Esbensen, K.H. (2011). Monitoring of anaerobic digestion process: A review perspective, Renewable and Sustainable Energy Reviews 15, 3141-3155. [12] Ødegaard, H. (2004). Sludge minimization technologies - an overview. Water Science and Technology, 49 (10), 31-40. [13] Rivas, A., Irizar, I., & Ayesa, E. (2008). Model-based optimisation of Wastewater Treatment Plants design, Environmental