3.1. Adsorption of dioxinsDioxin an

3.1. Adsorption of dioxins

Dioxin and related compounds (e.g. polychlorinated dibenzofuran and polychlorinated biphenyls) are stable and highly toxic pollutants. Dibenzo-p-dioxins are a family of compounds consisting of two benzene rings which are joined by two oxygen atoms. It has zero to eight chlorine atoms attached to the ring. Dibenzofuran is a similar yet different compound in which only one of the ties between two benzene rings are bridged by oxygen. The toxicity of dioxins varies depending on the number of chloro atoms. The dioxins having no or a single chloro atom are not toxic, while the dioxins having more than one chloro atom are toxic. 2,3,7,8-Tetraklorodibenzo-p-dioxin (TCDD) is a compound that is known to be carcinogenic to humans. Dioxins also affect the immune and endocrine systems and foetal development.

Dioxin compounds are mainly generated from the combustion of organic compounds in waste incineration. Dioxin compounds formed from combustion have concentrations in the range of 10–500 ng/m3. Regulations on dioxin emissions are complex and vary across countries. Nevertheless, it is generally necessary to reduce dioxin concentrations to below 1 ng/m3. Two critical reviews have been published that discuss the prevention and reduction of dioxin 29 Kulkarni, P. S., Crespo, J. G. and Afonso, A. M. 2008. Dioxins sources and current remediation technologies – A review. Environ. Intl, 34: 139–153. (doi:10.1016/j.envint.2007.07.009)
30 Wielgosiński, G. 2010. The possibilities of reduction of polychlorinated dibenzo-p-dioxins and polychlorinated dibenzofurans emission. Intl J. Chem. Eng., 2010 article ID 392175.
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Since 1991, adsorption using activated carbon has been widely adopted to eliminate dioxins from waste incinerators in Europe and Japan. Dioxin removal efficiency using an activated carbon adsorbent is much higher than other adsorbents because the bond energy between dioxin and activated carbon is higher than with other adsorbents, such as clay, γ-Al2O3 and zeolites 31 Cudahy, J. J. and Helsel, R. W. 2000. Removal of products of incomplete combustion with carbon. Waste Manag., 20: 339–345. (doi:10.1016/S0956-053X(99)00335-9)
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Owing to the extreme toxicity of dioxin, a more efficient adsorbent than activated carbon is required so that the dioxin emissions can be reduced to a lower level. In this case, Long and Yang 32 Long, R. Q. and Yang, R. T. 2001. Carbon nanotubes as a superior sorbent for removal dioxine. J. Amer. Chem. Soc., 123: 2058–2059. (doi:10.1021/ja003830l)
have found that the interaction of dioxin with CNTs is nearly three times stronger than the interaction of dioxin with activated carbon. Although not directly mentioned, the results showed that CNTs were significantly better than activated carbon and γ-Al2O3 for removing dioxins. This improvement is probably due to the nanotube curved surface compared with those for flat sheets that gives stronger interaction forces between dioxin and CNTs 33 Bhushan, B. 2010. Springer Handbook of Nanotechnology, 3, New York: Springer.
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