References

  1. M.X. Zhan, J.Y. Fu, T. Chen, Y.Q. Li, X.D. Li, J.H. Yan, A. Buekens, Adsorption of dioxins on the entering raw metal, Aerosol Air Qual. Res., 16 (2016) 1764–1774.
  2. G.X. Wei, H.Q. Liu, F. Liu, T.T. Zeng, R. Zhang, Y.W. Zhu, Effect of chloride on the decarburization and detoxification of washed incinerator fly ash, Desalination, 116 (2018) 251–257.
  3. Y.C. Jang, C. Lee, O.S. Yoon, H. Kim, Medical waste management in Korea, Environ. Manag., 80 (2006) 107–115.
  4. Y.L, Shutova, B.L. Karna, A.C. Hambly, et al., Enhancing organic matter removal in desalination pretreatment systems by application of dissolved air flotation, Desalination, 383 (2016) 12–21.
  5. J.H. Yan, Z. Peng, S.Y. Lu, X.D. Li, M.J. Ni, Degradation of PCDD/Fs by mechanochemical treatment of fly ash from medical waste incineration, J. Hazard. Mater., 147 (2007) 652–657.
  6. H.Q. Liu, G.X. Wei, R. Zhang, Removal of carbon constituents from hospital solid waste incinerator fly ash by column flotation, Waste Manage., 33 (2013) 168–174.
  7. F. Liu, H.Q. Liu, G.X. Wei, R. Zhang, T.T. Zeng, G.S. Liu, J.H. Zhou, Characteristics and treatment methods of medical waste incinerator fly ash: A review, Processes, 6 (2018) 1–23.
  8. G.X. Wei, H.Q. Liu, R. Zhang, Y.W. Zhu, X. Xu, D.D. Zang, Application of microwave energy in the destruction of dioxins in the froth product after flotation of hospital solid waste incinerator fly ash, J. Hazard. Mater., 325 (2017) 230–238.
  9. J.X. Li, Z.L. Dong, E.H. Yang, Strain hardening cementitious composites incorporating high volumes of municipal solid waste incineration fly ash, Construct. Build. Mater., 146 (2017) 183–191.
  10. H.S. Shi, L.L. Kan, Characteristics of municipal solid wastes incineration (MSWI) fly ash–cement matrices and effect of mineral admixtures on composite system, Construct. Build. Mater., 23 (2009) 2160–2166.
  11. R.C. Malviya, R.B. Chaudhary, Factors affecting hazardous waste solidification/stabilization: A review, J. Hazard. Mater., B137 (2006) 267–276.
  12. R.S. Bie, P. Chen, X.F. Song, X.Y. Ji, Characteristics of municipal solid waste incineration fly ash with cement solidification treatment, J. Energy Inst., 89 (2016) 704–712.
  13. X.X. Wang, A.M. Li, Z.K. Zhang, The effects of water washing on cement-based stabilization of MWSI fly ash, Procedia Environ. Sci., 31 (2016) 440–446.
  14. H.C. Hsi, L.C. Wang, T.H. Yu, Effects of injected activated carbon and solidification treatment on the leachability of polychlorinated dibenzo-p-dioxins and dibenzofurans from air pollution control residues of municipal waste incineration, Chemosphere, 67 (2007) 1394–1402.
  15. H.P. Vikram, H.S.A. Arafat, H.S. Rho, P.L. Bishop, N.V.G. Pinto, R.L.C. Buchanan, Immobilization of phenol in cement-based solidifiedr/stabilized hazardous wastes using regenerated activated carbon: leaching studies, J. Hazard. Mater., B70 (1999) 117–138.
  16. G.X. Wei, H.Q. Liu, F. Liu, T.T. Zeng, R. Zhang, Y.W. Zhu, Effect of chloride on the decarburization and detoxifcation of washed incinerator fly ash, Desal. Water Treat., 116 (2018) 251–257.
  17. H.Q. Liu, F. Liu, G.X. Wei, R. Zhang, D.D. Zang, Two-step flotation treatment for removal of toxic matter from hospital solid waste incinerator fly ash, Aerosol Air Qual. Res., 17 (2017) 1329–1340.
  18. X.B. Gao, W. Wang, T.M. Ye, F. Wang, Y.X. Lan, Utilization of washed MSWI fly ash as partial cement substitute with the addition of dithiocarbamic chelate, J. Environ. Manage., 88 (2008) 293–299.
  19. L.J. Zhao, F.S. Zhang, K.S. Wang, J.X Zhu, Chemical properties of heavy metals in typical hospital waste incinerator ashes in China, Waste Manage., 29 (2008) 1114–1121.
  20. Y. Chen, R.Z. Zhao, J. Xue, J.H. Li, Generation and distribution of PAHs in the process of medical waste incineration, Waste Manage., 33 (2013) 1165–1173.
  21. T. Mangialardi, A.E. Paolini, A. Polettini, P. Sirini, Optimization of the solidification/stabilization process of MSW fly ash in cementitious matrices, J. Hazard. Mater., B70 (1999) 53–70.
  22. Guide to Disposal of Chemically Stabilized and Solidified Wastes, U.S.EPA SW872, 1982.
  23. Q. Tang, Y. Liu, F. Gu, T. Zhou, Solidification/stabilization of fly ash from a municipal solid waste incineration facility using Portland cement, Adv. Mater. Sci. Eng., (2016) Article ID 7101243.
  24. C.S. Poon, X.C. Qiao, Z.S. Lin, Pozzolanic properties of reject fly ash in blended cement pastes, Cement Concrete Res., 33 (2003) 1857–1865.
  25. C.C. Fan, B.M. Wang, T.T. Zhang, Review on cement stabilization/solidification of municipal solid waste incineration fly ash, Adv. Mater. Sci. Eng., (2018) Article ID 5120649.
  26. E.B. Sobiecka, A.D. Obraniak, B.N. Antizar-Ladislao, Influence of mixture ratio and pH to solidification/stabilization process of hospital solid waste incineration ash in Portland cement, Chemosphere, 111 (2014) 18–23.
  27. Q.Y. Chen, C.D. Hills, M. Tyrer, I. Slipper, H.G. Shen, A. Brough, Characterisation of products of tricalcium silicate hydration in the presence of heavy metals, J. Hazard. Mater., 147 (2007) 817–825.
  28. Y.C. Li, X.B. Min, Y. K, D.G. Liu, C.J. Tang, Preparation of red mud-based geopolymer materials from MSWI fly ashand red mud by mechanical activation, Waste Manage., 83 (2019) 202–208.
  29. A.K. Minocha, N.R. Jain, C.L. Verma, Effect of organic materials on the solidification of heavy metal sludge, Constr. Build. Mater., 17 (2003) 77–81.
  30. H.A. Arafat, V.M. Hebatpuria, H.S. Rho, N.G. Pinto, P.L. Bishop, R.C. Buchanan, Immobilization of phenol in cementbased solidified/stabilized hazardous wastes using regenerated activated carbon: role of carbon, J. Hazard. Mater., B70 (1999) 139–156.