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HomeMaterials Science ForumMaterials Science Forum Vol. 871Experimental Assessment of Biogas and Leachate...

Experimental Assessment of Biogas and Leachate Emissions from MSW Landfills for Energy Reclamation with the Aim of Sustainable Urban Development

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Abstract:

This article discusses the organization and the results of the laboratory-scale experiments in bioreactors with samples of municipal solid waste (MSW) for assessment of biogas potential and leachate emissions for MSW landfills energy reclamation with the aim of sustainable urban development. The procedure of organization and carrying out laboratory experiments on MSW decomposition in bioreactors providing similarity to MSW landfill conditions was approved using equipment meeting the international requirements.

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Advanced Materials and Technologies in Construction, Energy Production and Waste Treatment

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Periodical:

Materials Science Forum (Volume 871)

Pages:

199-207

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.871.199

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Online since:

September 2016

Authors:

Vladimir Maslikov, Ekaterina Negulyaeva, Alexey Cheremisin, Alexander Chusov, Dmitry Molodtsov*, Alexander Stroganov

Keywords:

Biogas, Bioreactors, Ecological Management, Laboratory Simulation, Landfills, Leachate, Materials for Energy Efficiency, MSW, Sustainable Urban Development

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© 2016 Trans Tech Publications Ltd. All Rights Reserved

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[1] V.N. Chechevichkin, N.I. Vatin, Megacities land drainage and land runoff features and treatment, Applied Mechanics and Materials. 614-642 (2014) 409-415.

DOI: 10.4028/www.scientific.net/amm.641-642.409

[2] M.G. Ryzhakova, V.I. Maslikov, A.N. Chusov, V.V. Korablev, The Environmental Problem of Household Hazardous Waste Generation and Treatment, Applied Mechanics and Materials. 675-677 (2014) 761-769.

DOI: 10.4028/www.scientific.net/amm.675-677.761

[3] M. Yu. Zubkova, V.I. Maslikov, D.V. Molodtsov, A.N. Chusov, Experimental research of hydrogenous fuel production from biogas for usage in fuel cells of autonomous power supply systems, Advanced Materials Research. 941-944 (2014) 2107-2111.

DOI: 10.4028/www.scientific.net/amr.941-944.2107

[4] M. Yu. Zubkova, V.I. Maslikov, D.V. Molodtsov, A.N. Chusov, The ways assessment of direct production electricity and heat from hydrogenous fuel based on biogas for autonomous consumers, Applied Mechanics and Materials. 587-589 (2014) 330-337.

DOI: 10.4028/www.scientific.net/amm.587-589.330

[5] V.V. Zhazhkov, M. Yu. Zubkova, V.I. Maslikov, D.V. Molodtsov, A.N. Chusov, D.V. Semenenko, Model calculation of energy carriers expenses on the basis of biogas in system reformer - fuel cell for autonomous power supply systems, Applied Mechanics and Materials. 725-726 (2015).

DOI: 10.4028/www.scientific.net/amm.725-726.1602

[6] K. Rajendran, H.R. Kankanala, R. Martinsson, M.J. Taherzadeh, Uncertainty over techno-economic potentials of biogas from municipal solid waste (MSW): A case study on an industrial process, Applied Energy. 125 (2014) 84-92.

DOI: 10.1016/j.apenergy.2014.03.041

[7] M. De Barros Miranda Gomes, J.B. Sacomano, F. Papalardo, A.E. Da Silva, Production of Sustainable Electricity in Landfills: The Case of the Bandeirantes Landfill, IFIP Advances in Information and Communication Technology. 439 part 2 (2014).

DOI: 10.1007/978-3-662-44736-9_45

[8] E.C. Rada, Energy from municipal solid waste, WIT Transactions on Ecology and the Environment. 190 (2014) 945-958.

[9] D. Li, Z.X. Pan, Y. Ao, Prediction of landfill gas production of municipal solid waste and energy utilization analysis, Advanced Materials Research. 860-863 (2014) 3119-3122.

DOI: 10.4028/www.scientific.net/amr.860-863.3119

[10] H. -H. Spendlin, R. Stegmann, Untersuchungen im Labormaßstab zur Beschleunigung der Anaeroben Biochemischen Umsetzungsprozesse in Mülldeponien, Hamburg: BMFT-Forschungsbericht Feste Abfallstoffe, (1988).

[11] T. Scheelhaase, Versuchsreaktoren zur Simulation von Deponieverhalten: Erstellt im Rahmen des BMBF-Verbundprojektes Mechanisch-Biologische Behandlung von zu Deponierenden Abfällen, Stuttgart Abfall Now e.V., (1998).

[12] G. Rettenberger, Deponiegas '99: Neuere Entwicklungen, Anaerobtechnik, Entgasung bei Altablagerungen, Stuttgart: Verl. Abfall Aktuell, (1999).

[13] Y. Zhao, Q. Xie, Y. Zhang, Y. Zhang, C. Zhao, Experimental study on biodegradation-compression properties of municipal solid waste, Yantu Gongcheng Xuebao/Chinese Journal of Geotechnical Engineering. 36(10) (2014) 1863-1871.

[14] H. Hettiarachchi, J.P.A. Hettiaratchi, C.A. Hunte, J.N. Meegoda, Operation of a landfill bioreactor in a cold climate: Early results and lessons learned, Journal of Hazardous, Toxic, and Radioactive Waste. 17(4) (2013) 307-316.

DOI: 10.1061/(asce)hz.2153-5515.0000159

[15] X. Fei, D. Zekkos, L. Raskin, A laboratory landfill simulator for physical, geotechnical, chemical and microbial characterization of solid waste biodegradation processes, Coupled Phenomena in Environmental Geotechnics: From Theoretical and Experimental Research to Practical Applications - Proceedings of the International Symposium, ISSMGE TC 215. (2013).

DOI: 10.1201/b15004-37

[16] M.P. Fedorov, V.V. Korablev, V.I. Maslikov, E.O. Ioksha, «Carbonic» investments into the bioconversion of landfills, Ecology and Life. 4(77) (2008) 16-22.

[17] M.P. Fedorov, V.V. Korablev, V.I. Maslikov, E.O. Ioksha, Audit dlya uglerodnykh" investitsiy v energeticheskoe ispol'zovanie poligonov tverdykh bytovykh otkhodov [Audit for "carbonic" investments into energy use of municipal solid waste landfills], St. Petersburg, s State Polytechnic University Publishing House, (2007).

[18] G. Denafas, C. Ludwig, A. Chusov, M. Romanov, E. Neguliaeva et al., Seasonal Variation of Municipal Solid Waste Generation and Composition in Four East European Cities, Resources, Conservation and Recycling. 89 (2014) 22-30.

DOI: 10.1016/j.resconrec.2014.06.001

[19] A.N. Chusov, V.I. Maslikov, A.V. Cheremisin, D.V. Molodtsov, Municipal Solid Waste Landfills Aftercare and Utilization of Biogas Energy Potential, Proceedings I of the 6th International Scientific Conference Architecture, Civil Engineering – Modernity, 30 May – 1 June 2013 Varna, Bulgaria. (2013).

[20] V.I. Maslikov, A.N. Chusov, E. Yu. Negulyaeva, A.V. Cheremisin, D.V. Molodtsov, Laboratory research of waste decomposing in bioreactors for assessment of biogas potential and choice of measures for aftercare phase, St. Petersburg State Polytechnical University Journal, 2-2 (147) (2012).

[21] A.V. Cheremisin, E. Yu. Negulaeva, S.A. Basov, D.V. Molodtsov et al., Investigation and Control of Biodegradation Processess of Municipal Solid Waste (MSW) Model Samples of Almaty City, The Book of Proceedings of The International Youth Science Environmental Forum Of Baltic Region Countries Ecobaltica'2008,. (2008).

[22] M.P. Fedorov, V.V. Elistratov, V.V. Korablev, V.I. Maslikov, Investigation on mechanical and biological behavior of pretreated waste mixture, Conference Proceedings for the Project PSDWSEP 20th of June 2002 in Padova, Italy. (2002) 85-96.

[23] V.V. Elistratov, E.R. Lillepärg, V.I. Maslikov, Prognozirovanie emissii biogaza na poligonakh tverdykh bytovykh otkhodov [Forecasting biogas emission from municipal solid waste landfills], Proceedings of the conference Renewable Energy-2003: Modern Situation, Problems, Trends,. (2003).

[24] A.V. Cheremisin, M.P. Fedorov, V.I. Maslikov, Avtomatizirovannyy uchebno-nauchnyy laboratornyy kompleks Bioreaktor" dlya issledovaniya protsessov biorazlozheniya tverdykh bytovykh otkhodov [Automated educational-and-research laboratory complex "Bioreactor" for research of municipal solid waste biochemical decomposition processes], Regional, naya ekologiya. 3-4(17) (2001).

[25] B. Weber, Einspeisung von Wasser zur Intensivierung der Deponiegasentstehung. Deponiegasnutzung: Emissionsminimierung, neue Planungen und Technologien, Dokumentation zur Fachtagung in Trier, 6-8 März 1991. Gerhard Arendt. – Bonn: Economica-Verl. (1991).

[26] E.R. Lillepärg, Otsenka biogazovogo potentsiala poligonov TBO s ispol'zovaniem laboratornogo eksperimenta [Assessment of MSW landfills biogas potential using laboratory experiment], Politekhnicheskiy simpozium Molodye uchenye – promyshlennosti Severo-Zapadnogo regiona" Materialy seminarov – "Komp'yuternye tekhnologii i telekommunikatsii" i "Ekologiya i energoresursosberezhenie,. (2003).

[27] V.V. Elistratov, L.I. Kubyshkin, V.I. Maslikov, E.R. Pokrovskaya, Obosnovanie kompleksnykh energeticheskikh tekhnologiy na poligonakh tverdykh bytovykh otkhodov [Substantiation of complex energy technologies at municipal solid waste landfills], Energeticheskaya politika. 3 (2001).