Composting of sewage sludge with solid fraction of digested pulp from agricultural biogas plant

Wojciech Czekała; Jacek Dach; Jacek Przybył; Jakub Mazurwiekiwcz; Damian Janczak; Andrzej Lewicki; Anna Smurzyńska; Kamil Kozłowski

doi:10.1051/e3sconf/20183002001

All issues

Volume 30 (2018)

E3S Web Conf., 30 (2018) 02001

References

Open Access

Issue		E3S Web Conf. Volume 30, 2018 The First Conference of the International Water Association IWA for Young Scientist in Poland “Water, Wastewater and Energy in Smart Cities”


Article Number		02001
Number of page(s)		8
Section		Wastewater
DOI		https://doi.org/10.1051/e3sconf/20183002001
Published online		06 February 2018

J. Yuan, D. Chadwick, D. Zhang, G. Li, S. Chen, W. Luo, L. Du, S. He, S. Peng, Effects of aeration rare on maturity and gaseous emissions during sewage sludge conposting. Waste Management 56,403-410(2016) [CrossRef] [Google Scholar]
J.B. Bień A. Grosser, E. Neczaj, M. Worwag, P. Celary, Co-Digestion of Sewage Sudge with Different Organic Wastes – Review. Polish Journal of Environmental Studies Volume 2, 24-30 (2010) [Google Scholar]
D. Wojcieszak, J. Przybył, A. Lewicki, A Ludwiczak, A. Przybylak, P. Boniecki, K. Koszela, M. Zaborowicz, K. Przybył, K. Witaszek, Use of neural image analvsis methods in the process of determine the drv matter content in the compost. Proc. of SPIE Vol. 9631 963118-1 (2015) [CrossRef] [Google Scholar]
J. Hauikainen, M.T. Nguyen, L. Hermann, M. Horttanainen, M. Mikkilä I. Deviatkin, L. Liunanen Potential of phosphorus recovery from sewage sludge and manure ash by thermochemical treatment. Waste Management 49, 221-229 (2016) [CrossRef] [Google Scholar]
M. Michałkiewicz, J. Jeż – Walkowiak, Z. Dymaczewski, MM. Sozański, Dezynfekcja ścieków. Inżyniena Ekologiczna 24, 38-51 (2011) [Google Scholar]
M. Kacprzak, E. Neczaj, K. Fijałkowski, A. Grobelak, A. Grosser, M. Worwag, A. Rorat, H. Brattebo, A Almås, B.R. Singh, Sewage sludge disposal strategies for sustainable development. Environmental Research 156, 39-46(2017) [CrossRef] [PubMed] [Google Scholar]
D. Kosicka-Dziechciarek, A. Wolna-Maruwka, J. Mazurkiewicz, The Danger of Pathogenic Organisms in Sewage Sludge and Methods of Then Reduction Archives of Waste Management and Environmental Protection 17(4), 127-138 (2015) [Google Scholar]
W. Czekała, J. Dach, R. Dong, D. Janczak, K. Malińska, K. Jóźwiakowski, A. Smurzyńska, M. Cieślik, Conposting potential of the solid fraction of digested pulp produced by a biogas plant. Biosystems Engineering 160, 25-29 (2017) [CrossRef] [Google Scholar]
M. Cieślik, J. Dach, A. Lewicki A. Smurzyśska, D. Janczak, J. Pawlicka-Kaczorowska, P. Bomecki, P. Cyplik, W. Czekała, K. Jóżwiakowski, Methane fermentation of the maize straw silage under meso-and thermophilic conditions. Energy 115(2). 1495-1502 (2016) [CrossRef] [Google Scholar]
D. Janczak, K. Malińska, W. Czekała, R. Cáceres, A. Lewicki, J. Dach, Biochar to reduce ammionia emissions in gaseous and liquid phase during composting of poultry manure with wheat straw. Waste Management 66, 36–45 (2017) [CrossRef] [Google Scholar]
M. Zaborowicz, D. Wojcieszak, K Górka, S. Kujawa, R.J. Kozłowski, K. Przybył N. Mioduszewska, P. Idziaszek, P. Boniecki, Determination of dry matter content in composted material based on digital images of compost taken under mixed visible and UV-A light. Proc. SPIE 10033. Eighth International Conference on Digital Image Processing (ICDIP 2016), 100332G (August 29, 2016) (2016) [Google Scholar]
M.C. Gutiérrez, A. Senano, J.A. Siles, A.F. Chica, M.A. Martín, Centralized management of sewage sludge and agro-mdusmal waste through co-composting. Journal of Environmental Management 196, 387-393 (2017) [CrossRef] [PubMed] [Google Scholar]
L. Meng, W. Li, S. Zhang, C. Wu, K Wang, Effects of sucrose amendment on ammonia assimilation during sewage sludge composting. Bioresource Technology 210,160-166.(2016) [CrossRef] [PubMed] [Google Scholar]
R-L. Grando, AM. de Souza Antune, F.V da Fonseca, A. Sánchez, R. Barrena, C. Font, Technology overview of biogas production in anaerobic digestion plants: A European evaluation of research and development. Renewable and Sustainable Energy Reviews 80,44-53 (2017) [CrossRef] [Google Scholar]
C. Zhao, X. Cui, Y. Liu, R. Zhang, Y. He, W. Wang, C. Chen, G. Liu, Maximization of the n*thane production from durian shell during anaerobic digestion Bioresource Technology 238,433-438 (2017). [Google Scholar]
K. Kozłowski, A. Lewicki, P. Sołowiej, M. Neugebauer, A. Smurzyńska, 2016. Usage of waste whey as mono-substrate in continuous fermentation process. Energv And Clean Technologies Conference Proceedings. SGEM Vol. HI: 345-350(2016) [Google Scholar]
M.J. Stolarski, M. Krzyżaniak, K. Warmiński, J. Tworkowski, S. Szczukowski, E. Olba-Zięty E., Gołaszewski J. Energy efficiency of perennial herbaceous crops production depending on the tvpe of digestate and mineral fertilizers. Energv 134, 50-60(2017) [Google Scholar]
W. Czekała, S. Bartnikowska, A. Lewicka, A. Bugała, Z. Zbytek, A. Lewicki, Economic and energy efficiency of the solid bio fuels produced from digested pulp. MATEC Web of Conferences 60,04005ICCBS (2016) [CrossRef] [EDP Sciences] [Google Scholar]
W. Czekała, J. Dach J. Przybył, P. Boniecki, A. Lewicki, P.C.R. Carmona, D. Janczak, H. Waliszewska, "Die energetic efficiency of solid fraction of digestate pulp from biogas plant in production of solid and gaseous bio fuels - a case study of 1 MWel biogas plant in Poland. Proceedings of the 2nd International Conference on Energv & Environment: Bringing Together Engineering and Economics: 547-553 (2015) [Google Scholar]
I. Sigumjak, C. Vaneeckhaute, E. Micbels, B. Ryckaert, G. Ghekiere, F.MG. Tack, E. Meers, Fertilizer performance of liquid fraction of digestate as synthetic nitrogen substitute in silage maize cultivation for three consecutive years. Science of The Total Environment 599-600,1885-1894 (2017) [CrossRef] [Google Scholar]
I.H. Franke-Whittle, A. Confalonien, H. Insam, M Schlegehmlch, I. Kömer, Changes in the microbial communities during co-composting of digestates. Waste Management 34,632–641 (2014) [CrossRef] [Google Scholar]

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[1] J. Yuan, D. Chadwick, D. Zhang, G. Li, S. Chen, W. Luo, L. Du, S. He, S. Peng, Effects of aeration rare on maturity and gaseous emissions during sewage sludge conposting. Waste Management 56,403-410(2016) [CrossRef] [Google Scholar]

[2] J.B. Bień A. Grosser, E. Neczaj, M. Worwag, P. Celary, Co-Digestion of Sewage Sudge with Different Organic Wastes – Review. Polish Journal of Environmental Studies Volume 2, 24-30 (2010) [Google Scholar]

[3] D. Wojcieszak, J. Przybył, A. Lewicki, A Ludwiczak, A. Przybylak, P. Boniecki, K. Koszela, M. Zaborowicz, K. Przybył, K. Witaszek, Use of neural image analvsis methods in the process of determine the drv matter content in the compost. Proc. of SPIE Vol. 9631 963118-1 (2015) [CrossRef] [Google Scholar]

[4] J. Hauikainen, M.T. Nguyen, L. Hermann, M. Horttanainen, M. Mikkilä I. Deviatkin, L. Liunanen Potential of phosphorus recovery from sewage sludge and manure ash by thermochemical treatment. Waste Management 49, 221-229 (2016) [CrossRef] [Google Scholar]

[5] M. Michałkiewicz, J. Jeż – Walkowiak, Z. Dymaczewski, MM. Sozański, Dezynfekcja ścieków. Inżyniena Ekologiczna 24, 38-51 (2011) [Google Scholar]

[6] M. Kacprzak, E. Neczaj, K. Fijałkowski, A. Grobelak, A. Grosser, M. Worwag, A. Rorat, H. Brattebo, A Almås, B.R. Singh, Sewage sludge disposal strategies for sustainable development. Environmental Research 156, 39-46(2017) [CrossRef] [PubMed] [Google Scholar]

[7] D. Kosicka-Dziechciarek, A. Wolna-Maruwka, J. Mazurkiewicz, The Danger of Pathogenic Organisms in Sewage Sludge and Methods of Then Reduction Archives of Waste Management and Environmental Protection 17(4), 127-138 (2015) [Google Scholar]

[8] W. Czekała, J. Dach, R. Dong, D. Janczak, K. Malińska, K. Jóźwiakowski, A. Smurzyńska, M. Cieślik, Conposting potential of the solid fraction of digested pulp produced by a biogas plant. Biosystems Engineering 160, 25-29 (2017) [CrossRef] [Google Scholar]

[9] M. Cieślik, J. Dach, A. Lewicki A. Smurzyśska, D. Janczak, J. Pawlicka-Kaczorowska, P. Bomecki, P. Cyplik, W. Czekała, K. Jóżwiakowski, Methane fermentation of the maize straw silage under meso-and thermophilic conditions. Energy 115(2). 1495-1502 (2016) [CrossRef] [Google Scholar]

[10] D. Janczak, K. Malińska, W. Czekała, R. Cáceres, A. Lewicki, J. Dach, Biochar to reduce ammionia emissions in gaseous and liquid phase during composting of poultry manure with wheat straw. Waste Management 66, 36–45 (2017) [CrossRef] [Google Scholar]

[11] M. Zaborowicz, D. Wojcieszak, K Górka, S. Kujawa, R.J. Kozłowski, K. Przybył N. Mioduszewska, P. Idziaszek, P. Boniecki, Determination of dry matter content in composted material based on digital images of compost taken under mixed visible and UV-A light. Proc. SPIE 10033. Eighth International Conference on Digital Image Processing (ICDIP 2016), 100332G (August 29, 2016) (2016) [Google Scholar]

[12] M.C. Gutiérrez, A. Senano, J.A. Siles, A.F. Chica, M.A. Martín, Centralized management of sewage sludge and agro-mdusmal waste through co-composting. Journal of Environmental Management 196, 387-393 (2017) [CrossRef] [PubMed] [Google Scholar]

[13] L. Meng, W. Li, S. Zhang, C. Wu, K Wang, Effects of sucrose amendment on ammonia assimilation during sewage sludge composting. Bioresource Technology 210,160-166.(2016) [CrossRef] [PubMed] [Google Scholar]

[14] R-L. Grando, AM. de Souza Antune, F.V da Fonseca, A. Sánchez, R. Barrena, C. Font, Technology overview of biogas production in anaerobic digestion plants: A European evaluation of research and development. Renewable and Sustainable Energy Reviews 80,44-53 (2017) [CrossRef] [Google Scholar]

[15] C. Zhao, X. Cui, Y. Liu, R. Zhang, Y. He, W. Wang, C. Chen, G. Liu, Maximization of the n*thane production from durian shell during anaerobic digestion Bioresource Technology 238,433-438 (2017). [Google Scholar]

[16] K. Kozłowski, A. Lewicki, P. Sołowiej, M. Neugebauer, A. Smurzyńska, 2016. Usage of waste whey as mono-substrate in continuous fermentation process. Energv And Clean Technologies Conference Proceedings. SGEM Vol. HI: 345-350(2016) [Google Scholar]

[17] M.J. Stolarski, M. Krzyżaniak, K. Warmiński, J. Tworkowski, S. Szczukowski, E. Olba-Zięty E., Gołaszewski J. Energy efficiency of perennial herbaceous crops production depending on the tvpe of digestate and mineral fertilizers. Energv 134, 50-60(2017) [Google Scholar]

[18] W. Czekała, S. Bartnikowska, A. Lewicka, A. Bugała, Z. Zbytek, A. Lewicki, Economic and energy efficiency of the solid bio fuels produced from digested pulp. MATEC Web of Conferences 60,04005ICCBS (2016) [CrossRef] [EDP Sciences] [Google Scholar]

[19] W. Czekała, J. Dach J. Przybył, P. Boniecki, A. Lewicki, P.C.R. Carmona, D. Janczak, H. Waliszewska, "Die energetic efficiency of solid fraction of digestate pulp from biogas plant in production of solid and gaseous bio fuels - a case study of 1 MWel biogas plant in Poland. Proceedings of the 2nd International Conference on Energv & Environment: Bringing Together Engineering and Economics: 547-553 (2015) [Google Scholar]

[20] I. Sigumjak, C. Vaneeckhaute, E. Micbels, B. Ryckaert, G. Ghekiere, F.MG. Tack, E. Meers, Fertilizer performance of liquid fraction of digestate as synthetic nitrogen substitute in silage maize cultivation for three consecutive years. Science of The Total Environment 599-600,1885-1894 (2017) [CrossRef] [Google Scholar]

[21] I.H. Franke-Whittle, A. Confalonien, H. Insam, M Schlegehmlch, I. Kömer, Changes in the microbial communities during co-composting of digestates. Waste Management 34,632–641 (2014) [CrossRef] [Google Scholar]