Abstract
Material and energy recovery are vital elements of an integrated municipal solid waste (MSW) management scheme. Although recycling is an environment-friendly alternative for waste management, higher waste generation rates necessitate faster treatment techniques like incineration. The viability of waste incineration nevertheless, depends on the incinerability of the feed to furnace. To prevent operational failures, it becomes quintessential to ensure the incinerability of the MSW feed. To facilitate this decision-making, the incinerability index or i-Index, a tool to quantify incinerability on a scale of 0–100 and determine the feasibility of incineration has been devised by the authors. This paper focusses on the estimation of incinerability of MSW when different components are recovered for recycling. MSW generated in a developed country like USA and metro like Delhi in India, a developing country, with relatively high waste generation and recycling rates were considered for the study. i-Index value for raw MSW generated in USA was computed as 72.54 using USEPA data while MSW generated in South Delhi had lower i-Index of 66.7. After maximum material recovery, i-Index of residual MSW in USA amounted to 68.8, in contrast to MSW in Delhi, which amounted to 49.7. Although recycling of combustible fractions adversely affects the incinerability, it was counter balanced by the recovery of food fraction for composting resulting in a mild increase in incinerability. Variation in i-Index and thus the incinerability with the recycling of different components are investigated for assessing the feasibility of incineration of the residual MSW.
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References
Lino, F.A.M., Bizzo, W.A., Da Silva, E.P., Ismail, K.A.R.: Energy impact of waste recyclable in a Brazilian metropolitan. Resour. Conserv. Recycl. 54, 916–922 (2010)
Morris, J.: Recycling versus incineration: an energy conservation analysis. J. Hazard. Mater. 47, 277–293 (1996)
Mian, M.M., Zeng, X., Nasry, A.A.N.B., Al-Hamadani, S.M.Z.F. Municipal solid waste management in China: a comparative analysis. J. Mater. Cycles Waste Manag. 19, 1127–1135 (2017)
Hoornweg, D., Bhada-Tata, P.: A Global Review of Solid Waste Management. World Bank Urban Development Series. Knowledge Papers no. 1–116 (2012)
Koufodimos, G., Samaras, Z.: Waste management options in southern Europe using field and experimental data. Waste Manag. 22, 47–59 (2002)
Abedini, A.R., Atwater, J.W., Fu, G.Y.: Effect of recycling activities on the heating value of solid waste: case study of the Greater Vancouver Regional District (Metro Vancouver). Waste Manag. Res. 30, 839–848 (2012)
Merrild, H., Larsen, A.W., Christensen, T.H.: Assessing recycling versus incineration of key materials in municipal waste: the importance of efficient energy recovery and transport distances. Waste Manag. 32, 1009–1018 (2012)
TERI. http://terienvis.nic.in/index3.aspx?sslid=4110&subsublinkid=1348&langid=1&mid=1 (2017). Accessed 18 December 2017 at 22.37
Agarwal, A., Singhmar, A., Kulshrestha, M., Mittal, A.K.: Municipal solid waste recycling and associated markets in Delhi, India. Resour. Conserv. Recycl. 44, 73–90 (2005)
Sebastian, R.M., Kumar, D., Alappat, B.J.: A technique to quantify incinerability of municipal solid waste. Resour. Conserv. Recycl. 140, 286–296 (2019). https://doi.org/10.1016/j.resconrec.2018.09.022
Sebastian, R.M., Kumar, D., Alappat B.J.: Identifying Appropriate aggregation technique for incinerability index. Environmental progress and sustainable energy. AIChE, pp. 1–10 (2018). https://doi.org/10.1002/ep.13068
CPCB. Status of implementation of Plastic Waste Management (PWM) status of plastics waste management in India. Central Pollution Control Board India (2015)
Finnveden, G., Ekvall, T.: Life-cycle assessment as a decision-support too—the case of recycling versus incineration of paper. Resour. Conserv. Recycl. 24, 235–256 (1998)
Laurijssen, J., Marsidi, M., Westenbroek, A., Worrell, E., Faaij, A.: Paper and biomass for energy? Resour. Conserv. Recycl. 54, 1208–1218 (2010)
Villanueva, A., Wenzel, H.: Paper waste—recycling, incineration or landfilling? A review of existing life cycle assessments. Waste Manag. 27, 29–46 (2007)
Magrinho, A., Semiao, V.: Estimation of residual MSW heating value as a function of waste component recycling. Waste Manag. 28, 2675–2683 (2008)
Burnley, S., Phillips, R., Coleman, T., Rampling, T.: Energy implications of the thermal recovery of biodegradable municipal waste materials in the United Kingdom. Waste Manag. 31, 1949–1959 (2011)
EPA. Municipal solid waste generation, recycling, and disposal in the United States: facts and figures for 2012, 1–13 (2014)
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The authors would like to thank the members of the expert panel for their valuable comments and opinions for the formulation of i-Index for MSW.
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Sebastian, R.M., Kumar, D., Alappat, B.J. (2020). Influence of Recycling on the Incinerability of Municipal Solid Waste. In: Kalamdhad, A. (eds) Recent Developments in Waste Management . Lecture Notes in Civil Engineering, vol 57. Springer, Singapore. https://doi.org/10.1007/978-981-15-0990-2_36
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DOI: https://doi.org/10.1007/978-981-15-0990-2_36
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