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The biodrying process was carried out in a bioreactor with a capacity of 240 dm3. The research utilized digested sludge from a sewage treatment plant and an organic fraction of municipal solid waste. The dry mass, dry organic mass, temperature, and respiration index of the dried material were determined during the biodrying process. Because of the waste biodrying process for ten days, the amount of moisture removed was 51.7%. The greatest activity of microorganisms in the waste was on the fourth day of the process, when the temperature reached the maximum value of 58°C in the top layer of waste in the middle of the bioreactor.
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Tom
Strony
5--11
Opis fizyczny
Bibliogr. 23 poz., wykr.
Twórcy
autor
- Łódź University of Technology, Department of Bioprocess Engineering, 90-924 Łódź, ul. Wólczańska 213
autor
- Łódź University of Technology, Department Bioprocess Engineering, 90-924 Łódź, ul. Wólczańska 213
autor
- Łódź University of Technology, Department Bioprocess Engineering, 90-924 Łódź, ul. Wólczańska 213
autor
- Łódź University of Technology, Institute of Environmental Engineering and Construction Installations, 90-924 Łódź, Al. Politechniki 6
Bibliografia
- [1] Dyrektywy Rady 1999/31/WE z dnia 26 kwietnia 1999 r. w sprawie składowania odpadów (Dz. Urz. WE L 182 z 16.07.1999, str. 1).
- [2] J. Bernreuter, R. Stessel, A review of aerobic bio cell research and technology, Draft report by Columbia University for the SWANA Aerobic Sub-committee, Earth Engineering centre, New York, 1999.
- [3] C. Rosik-Dulewska, Podstawy gospodarki odpadami, Wydawnictwo Naukowe PWN, Warszawa, 2008.
- [4] A. Jędrczak, Biologiczne przetwarzanie odpadów, Wydawnictwo Naukowe PWN, Warszawa, 2007.
- [5] H.-J. Jördening, J. Winter, Environmental Biotechnology, Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany, 2005.
- [6] C. Campman, A. Yates, Bioreactor Landfills: An Idea whose time has come, MSW Management, 2002.
- [7] A.D. Read, M. Hudgins, S. Harper, P. Phillips, J. Morris, The successful demonstration of aerobic landfilling: the potential for a more sustainable solid waste management approach?, Resour. Conserv. Recy.32 (2001) 115-146.
- [8] M.C. Zanetti, Aerobic biostabilization of old MSW landfills, Am. J. Eng. Appl. Sci. 1 (2008) 393-398.
- [9] F. Adani, D. Baido, E. Calcatera, P. Genevini, The influence of biomass temperature on biostabilization-biodrying of municipal solid waste, Bioresource Technol. 83 (2002) 173-179.
- [10] A. Dominczyk, L. Krzystek, S. Ledakowicz, Biologiczne suszenie mieszaniny stałych odpadów przemysłu papierniczego oraz organicznej frakcji stałych odpadów komunalnych, Inż. Ap. Chem.51(2012) 115-116.
- [11] A. Dominczyk, L. Krzystek, S. Ledakowicz, Biodrying of organic municipal wastes and residues from the pulp and paper industry, Dry. Technol. 32 (2014).
- [12] S. Grillia, A. Giordanob, A. Spagnia, Stabilisation of biodried municipal solid waste fine fraction in landfill bioreactor, Waste Manage.32 (2012) 1678-1684.
- [13] M. Ragazzi, E.C. Rada, D. Antolini, Material and energy recovery in integrates waste management systems: an innovative approach for the characterization of the gaseous emissions from residual MSW bio-drying, Waste Manage. 31 (2011) 2085-2091.
- [14] M. Sugni, E. Calcatera, F. Adani, Biostabilization-biodrying of municipal solid waste by inverting air-flow, Bioresource Technol. 96 (2005) 1331-1337.
- [15] F. Tambone, B. Scaglia, S. Scotti, F. Adani, Effect of biodrying process on municipal solid waste properties, Waste Manage. 102 (2011) 7443-7450.
- [16] C. Velis, P. Longhurst, G.H. Drew, R. Smith, S. Pollard, Biodrying for mechanical-biological treatment of wastes: a review of process science and engineering, Bioresource Technol. 100 (2009) 2747-2761.
- [17] C. Velis, S. Wagland, P. Longhurst, B. Robson, K. Sinfield, S. Wise, S. Pollard, Solid recovered fuels: influence of waste stream composition and processing on choline content and fuel quality, Environ. Sci. Technol. 46 (2012) 1923-1931.
- [18] S.T. Wagland, A.R. Godley, S.F. Tyrrel, Investigation of the application of an enzyme-based biodegradability test method to a municipal solid waste biodrying process, Waste Manage. 31 (2011) 1467-1471.
- [19] A. Zawadzka, L. Krzystek, P. Stolarek, S.Ledakowicz, Biodrying of organic fraction of municipal solid wastes, Dry. Technol. 28 (2010) 1220-1226.
- [20] D.Q. Zhang, P.J. He, T.F. Jin, L.M. Shao, Bio-drying municipal solid waste with high water content by aeration procedures regulation and inoculation, Bioresource Technol. 99 (2008) 8796-8802.
- [21] D.Q. Zhang, H. Zhang, C.L. Wu, L.M. Shao, P.J. He,. Evolution of heavy metals in solid waste during bio-drying and implications of their subsequent transfer during combustion, Waste Manage. 31 (2011) 1790-1796.
- [22] J. Villasenor, M. A. Perez, F. J. Fernandez, C. M. Puchalski, Monitoring respiration and biological stability during sludge composting with a modified dynamic respirometer, Bioresource Technol. 102 (2011) 6562-6568.
- [23] M. Ritzkowski, K.-U. Heyer, R. Stegmann, Fundamental processes and implications during in situ aeration of old landfills, Waste Manage.26 (2006) 356-372.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5d99d941-8e67-481f-aeda-2a44e480d86a