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http://dx.doi.org/10.4491/eer.2015.028

Application of food waste leachate to a municipal solid waste incinerator for reduction of NOx emission and ammonia water consumption  

Park, Jong Jin (Kolon Environmental Service Co., Ltd.)
Kim, Daegi (Department of Civil and Environmental Systems Engineering, Konkuk University)
Lee, Kwanyong (Department of Civil and Environmental Systems Engineering, Konkuk University)
Lee, Kyung Tae (Kolon Environmental Service Co., Ltd.)
Park, Ki Young (Department of Civil and Environmental Systems Engineering, Konkuk University)
Publication Information
Environmental Engineering Research / v.20, no.2, 2015 , pp. 171-174 More about this Journal
Abstract
This study investigates the possibility of applying food waste leachate to a municipal solid waste incinerator in order to effectively dispose of the material and to reduce the environmental impact. The spray positions and the quantity of the food waste leachate in municipal solid waste incinerator were adjusted to examine the stability of the process and the environmental effect. The rear of the first combustion chamber was found to be the desirable location for an environmental perspective in this study. At a food waste leachate injection rate of $2m^3/h$, the concentration of the emitted NOx decreased from 130 ppm to 40 ppm. The consumption of ammonia water was reduced by about 36% after adding the food waste leachate. The inclusion of the food waste leachate to the municipal incinerator also increased the amount of steam that was produced. The results of this research indicated that a positive outcome can be expected in terms of diversifying the treatment options for food waste leachate. The results also provide guidance for institutional framework to manage the incineration of the food waste leachate.
Keywords
Food waste leachate; Incinerator; Municipal solid waste; NOx reduction;
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1 Lee JW, Jutidamrongphan W, Park KY, Moon S, Park C. Advanced treatment of wastewater from food waste disposer in modified Ludzack-Ettinger type membrane bioreactor. Environ. Eng. Res. 2012;17:59-63.   DOI   ScienceOn
2 Burnley S. The impact of the European landfill directive on waste management in the United Kingdom. Resoour. Consev. Recy. 2001;32:349-358.   DOI   ScienceOn
3 Kim MH, Song YE, Song HB, Kim JW, Hwang SJ. Evaluation of food waste disposal options by LCC analysis from the perspective of global warming: Jungnang case, South Korea. Waste Manag. 2011;31:2112-2120.   DOI   ScienceOn
4 Iacovidou E, Ohandja DG, Gronow J, Voulvoulis N. The household use of food waste disposal units as a waste management option: a review. Crit. Rev. Environ. Sci. Technol. 2012;42: 1485-1508.   DOI
5 Williams PT. Waste treatment and disposal. John Wiley & Sons; 2013. p. 171-244.
6 Caton JA, Narney JK, Cariappa HC, Laster WR. The selective non‐catalytic reduction of nitric oxide using ammonia at up to 15% oxygen. Can. J. Chem. Eng. 1995;73:345-350.   DOI
7 Hemberger R, Muris S, Pleban KU, Wolfrum J. An experimental and modeling study of the selective noncatalytic reduction of NO by ammonia in the presence of hydrocarbons. Combust. Flame. 1994;99:660-668.   DOI   ScienceOn
8 Vehlow J. Air pollution control systems in WtE units: An overview. Waste Manag. 2015;37:58-74.   DOI   ScienceOn
9 Muzio LJ, Quartucy GC, Cichanowiczy JE. Overview and status of post-combustion NOx control: SNCR, SCR and hybrid technologies. Int. J. Environ. Pollut. 2002;17:4-30.   DOI
10 Botheju D, Glarborg P, Tokheim LA. The use of amine reclaimer wastes as a NOx reduction agent. Energy Procedia 2013;37:691-700.   DOI   ScienceOn
11 McKay G. Dioxin characterisation, formation and minimisation during municipal solid waste (MSW) incineration: review. Chem. Eng. J. 2002;86:343-368.   DOI   ScienceOn
12 Weitz KA, Thorneloe SA, Nishtala SR, Yarkosky S, Zannes M. The impact of municipal solid waste management on greenhouse gas emissions in the United States. J. Air Waste Manag. Assoc. 2002;52:1000-1011.   DOI
13 Svoboda K, Baxter D, Martinec J. Nitrous oxide emissions from waste incineration. Chemical papers 2006;60:78-90.
14 Williams PT. Dioxins and furans from the incineration of municipal solid waste: an overview. J. Energy Institute 2005;78:38-48.   DOI   ScienceOn
15 Dvorak R, Chlapek P, Jecha D, Puchyr R, Stehlik P. New approach to common removal of dioxins and NOx as a contribution to environmental protection. J. Clean. Prod. 2010;18:881-888.   DOI   ScienceOn
16 Tsiliyannis CA. Flue gas recirculation and enhanced performance of waste incinerators under waste uncertainty. Environ. Sci. Technol. 2013;47:8051-8061.   DOI   ScienceOn
17 Lin CSK, Pfaltzgraff LA, Herrero-Davila L, et al. Food waste as a valuable resource for the production of chemicals, materials and fuels. Current situation and global perspective. Energy Environ. Sci. 2013;6:426-464.   DOI   ScienceOn
18 Busca G, Lietti L, Ramis G, Berti F. Chemical and mechanistic aspects of selective catalytic reduction of NOx by ammonia over oxide catalyst. Appl. Catal. B 1998;18:1-36.   DOI   ScienceOn