References

  1. National Waste Management Plan 2022, Annex to the Resolution No. 88 of the Council of Ministers of 1 July 2016 (Item 784), Warsaw, 2016. Available at: https://bip.mos.gov.pl/fileadmin/user_upload/bip/strategie_plany_programy/DGO/ Kpgo_2022_EN.doc
  2. X. Liu, X. Gao, W. Wang, L. Zheng, Y. Zhou, Y. Sun, Pilot-scale anaerobic co-digestion of municipal biomass waste: focusing on biogas production and GHG reduction, Renewable Energy, 44 (2012) 463–468.
  3. L. Appels, J. Lauwers, J. Degrève, L. Helsen, B. Lievens, K. Willems, J.V. Impe, R. Dewil, Anaerobic digestion in global bio-energy production: potential and research challenges, Renewable Sustainable Energy Rev., 15 (2011) 4295–4301.
  4. W. Rzeźnik, P. Mielcarek-Bocheńska, Agricultural biogas plants in Poland, Eng. Rural Dev., 17 (2018) 1760–1765.
  5. EBA Statistical Report, EBA European Biogas Association, 2018.
  6. A. Molino, F. Nanna, Y. Ding, B. Bikson, G. Braccio, Biomethane production by anaerobic digestion of organic waste, Fuel, 103 (2013) 1003–1009.
  7. A. Wellinger, J. Murphy, D. Baxter, The Biogas Handbook: Science, Production and Application, Woodhead Publishing, Sawston, Cambridge, UK, 2013.
  8. T. Rehl, J. Müller, Life cycle assessment of biogas digestate processing technologies, Resour. Conserv. Recycl., 56 (2011) 92–104.
  9. M. Koszel, E. Lorencowicz, Agricultural use of biogas digestate as a replacement fertilizers, Agric. Agric. Sci. Procedia, 7 (2015) 119–124.
  10. B. Drogs, W. Fuchs, T. Al Seadi, M. Madsen, B. Linke, D. Baxter, Nutrient Recovery by Biogas Digestate Processing, EIA Bioenergy, 2015. Available at: http://www.iea-biogas.net/ files/daten-redaktion/download/Technical%20Brochures/NUTRIENT_RECOVERY_RZ_web1.pdf
  11. M. Zeshan, C. Visvanathan, Evaluation of anaerobic digestate for greenhouse gas emissions at various stages of its management, Int. Biodeterior. Biodegrad., 95 (2014) 167–175.
  12. K. Pilarski, J. Dach, A. Pilarska, Prefered directions of agricultural the farm implements with production the wastes biofuels, Technol. Agric. Horticult. For., 3 (2010) (in Polish).
  13. F. Guilayn, J. Jimenez, M. Rouez, M. Crest, D. Patureau, Digestate mechanical separation: efficiency profiles based on anaerobic digestion feedstock and equipment choice, Bioresour. Technol., 274 (2019) 180–189.
  14. W. Czekała, A. Lewicki, P. Pochwatka, A. Czekała, D. Wojcieszak, K. Jóźwiakowski, H. Waliszewska, Digestate management in polish farms as an element of the nutrient cycle, J. Cleaner Prod., 242 (2020) 118454, doi: 10.1016/j.jclepro.2019.118454.
  15. K. Risberg, H. Cederlund, M. Pell, V. Arthurson, A. Schnürer, Comparative characterization of digestate versus pig slurry and cow manure – chemical composition and effects on soil microbial activity, Waste Manage., 61 (2017) 529–538.
  16. M. Makadi, A. Tomocsik, V. Orosz, Digestate: A New Nutrient Source – Review, S. Kumar, Eds., Biogas, Intech, Croatia, 2012, pp. 295–310.
  17. A. Mekki, F. Arous, F. Aloudi, S. Sayadi, Disposal of agroindustrials wastes as soil amendments, Am. J. Environ. Sci., 9 (2013) 458–469.
  18. X. Peng, I.A. Nges, J. Liu, Improving methane production from wheat straw by digestate liquor recirculation in continuous stirred tank processes, Renewable Energy, 85 (2016) 12–18.
  19. M.M. Estevez, Z. Sapci, R. Linjordet, A. Schnürer, J. Morken, Semi-continuous anaerobic co-digestion of cow manure and steam-exploded Salix with recirculation of liquid digestate, J. Environ. Manage., 136 (2014) 9–15.
  20. M.L. Gerardo, N.H.M. Aljohani, D.L. Oatley-Radcliffe, R.W. Lovitt, Moving towards sustainable resources: recovery and fractionation of nutrients from dairy manure digestate using membranes, Water Res., 80 (2015) 80–89.
  21. W. Guo, H.-H. Ngo, J. Li, A mini-review on membrane fouling, Bioresour. Technol., 122 (2012) 27–34.
  22. W.L. Ang, A.W. Mohammad, N. Hilal., C.P. Leo, A review on the applicability of integrated/hybrid membrane processes in water treatment and desalination plants, Desalination, 363 (2015) 2–18.
  23. H. Huang, H.-H. Cho, J.G. Jacangelo, K.J. Schwab, Mechanisms of membrane fouling control by integrated magnetic ion exchange and coagulation, Environ. Sci. Technol., 46 (2012) 10711–10717.
  24. F. Meng, S. Zhang, Y. Oh, Z. Zhou, H.-S. Shin, S.-R. Chae, Fouling in membrane bioreactors: an updated review, Water Res., 114 (2017) 151–180.
  25. Merck, CAS 1305–78–8. Available at: http://www.merckmillipore. com
  26. Avantor, Chemical Safety Data Sheet (in Polish).
  27. Kemipol, Safety Data Sheet (in Polish).
  28. M. Kabsch-Korbutowicz, Ultrafiltration as a method of natural organic matter separation from water, Rocz. Ochr. Srodowiska, 10 (2008) 17–27.
  29. A. Urbanowska, M. Kabsch-Korbutowicz, Analysis of the pre-treatment efficiency of digestate liquid fraction from a municipal waste biogas plant, Environ. Prot. Eng., 45 (2019) 103–113.
  30. E.W. Rice, R.B. Baird, A.D. Eaton (Eds.), Standard Methods for the Examination of Water and Wastewater, 23rd ed., American Public Health Association, American Water Works Association, and Water Environment Federation, 2017.
  31. S. Salgın, U. Salgın, N. Soyer, Streaming potential measurements of polyethersulfone ultrafiltration membranes to determine salt effects on membrane zeta potential, Int. J. Electrochem. Sci., 8 (2013) 4073–4084.
  32. S.G. Salinas-Rodriguez, G.L. Amy, J.C. Schippers, M.D. Kennedy, The modified fouling index ultrafiltration constant flux for assessing particulate/colloidal fouling of RO systems, Desalination, 365 (2015) 79–91.