CMA

54 2014. Article submitted to the Ninth International Conference on Waste Management and Technology. Basel Convention, Tsinghua University, 29-31 October 2014. Kamyotra, J. S., Bala, S. S., Gupta, P. K., and Karstensen, Kåre Helge, 2013. Co-processing of wastes in resource and energy intensive industry in India – an introduction. International Cement Review, p 91-95, March 2013. Kamyotra, J. S., Bala, S. S., Gupta, P. K., and Karstensen, Kåre Helge, 2013. Regulatory requirements and co-processing experiences in India. International Cement Review, p 95-100, March 2013. Karstensen, K. H., 2008. Formation, release and control of dioxins in cement kilns – A review. Chemosphere, 70 (2008) 543–560. ISSN: 0045-6535. Kikuchi, R., 2001. Recycling of municipal solid waste for cement production: pilot-scale test for transforming incineration ash of solid waste into cement. Resour. Conserv. Recycl. 31 (2), 137–147. Krammart, P., Tangtermsirikul, S., 2004. Properties of cement made by partially replacing cement raw materials with municipal solid waste ashes and calcium carbide waste. Con. Build. Mat. 18 (8), 579–583. Kyle A. Clavier, Jerry M. Paris, Christopher C. Ferraro, Timothy G. Townsen, 2020. Opportunities and challenges associated with using municipal waste incineration ash as a raw ingredient in cement production – a review. Resources, Conservation & Recycling 160 (2020) 104888. Lam, C.H.K., Barford, J.P., McKay, G., 2011. Utilization of municipal solid waste incineration ash in Portland cement clinker. Clean Technol. Environ. Pol. 13 (4), 607–615. Lederer, J., Trinkel, V., Fellner, J., 2017. Wide-scale utilization of MSWI fly ashes in cement production and its impact on average heavy metal contents in cements: the case of Austria. Waste Manage 60, 247–258. Liu, G., Zhan, J., Zheng, M., Li, L., Li, C., Jiang, X., Wang, M., Zhao, Y., Jin, R., 2015. Field pilot study on emissions, formations and distributions of PCDD/Fs from cement kiln co-processing fly ash from municipal solid waste incinerations. J. Haz. Mater. 299, 471–478. Mao, Y., Wu, H., Wang, W., Jia, M., Che, X., 2020. Pre- treatment of municipal solid waste incineration fly ash and preparation of solid waste source sulphoaluminate cementitious material. J. Hazard. Mater. 385, 121580. Margallo, M., Adaco, R., Irabien, A., 2013. Life cycle assessment of bottom ash management from a municipal solid waste incinerator (MSWI). Chem. Eng. Trans. 35, 871–876. MoEFCC (Ministry of Environment, Forest and Climate Change), 2016. ‘Solid Waste Management Rules, 2016’ in: Gazette of India, Extraordinary, Part II, Section- 3, Sub-section (ii), Government of India, Ministry of Environment, Forests and Climate Change, New Delhi. MoEFCC (Ministry of Environment, Forest and Climate Change), 2016. GSR 497 (E) 10 May 2016 in: Gazette of India. New Delhi, India: Government of India. Pan, J.R., Huang, C., Kuo, J., Lin, S., 2008. Recycling MSWI bottom and fly ash as raw materials for Portland cement. Waste Manage 28 (7), 1113–1118. Quina, M. J., Bordado, J. C., and Quinta-Ferreira, R. M., 2008. Treatment and use of air pollution control residues from MSW incineration: An overview. Waste Manage 28, 2097-2121. Saikia, N., Kato, S., Kojima, T., 2007. Production of cement clinkers from municipal solid waste incineration (MSWI) fly ash. Waste Manage 27 (9), 1178–1189. Sarmiento, L.M., Clavier, K.A., Paris, J.M., Ferraro, C.C., Townsend, T.G., 2019. Critical examination of recycled municipal solid waste incineration ash as a mineral source for portland cement manufacture- A case study. Resour. Conserv. Recycl. 148, 1–10. Serclérat, I., Moszkowicz, P., Pollet, B., 2000. Retention mechanisms in mortars of the trace metals contained in Portland cement clinkers. Waste Manage 20 (2–3), 259–264. Singh, D., Kumar, T., James, B.E., Hanifa, M., 2019. Utilization of MSWI ash for geotechnical applications: a review. Environ. Geotechnol. 31, 229–236. Šyc, M., Keppert, M., Pohořelý, M., Novák, P., Punčochář1, M, Fišerová, E., Pekárek, V.,2010, Fly Ash Treatment Technology in Modern Waste Incineration Plant, Coventry University and The University of Wisconsin Milwaukee Centre for By-