Title of article
Formation and inhibition of chloroaromatic micropollutants formed in incineration processes
Author/Authors
D. Lenoir، نويسنده , , A. Wehrmeier، نويسنده , , S. S. Sidhu، نويسنده , , P. H. Taylor، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
8
From page
107
To page
114
Abstract
The formation pathways for chlorinated aliphatic and chlorinated aromatic compounds in technical incineration processes are reviewed. It is shown that acetylene is converted to chloroaromatic compounds including PCDD/F in a special flow reactor by catalytic activity of CuCl2 in the temperature regime of a post-combustion zone of technical incinerators. Mechanistic pathways begin with chlorination of acetylene. Dichloroacetylene is further condensed to C-4 and C-6 units. Hexachlorobenzene is the dominant aromatic compound and a likely precursor to chlorinated phenols and PCDD/F. Two specific mechanisms of formation of chlorinated aromatic compounds including PCDD/F have been advanced. Both mechanisms begin with the formation of dichloroacetylene from flame pyrolysis products like acetylene. Condensation of dichloroacetylene is mediated by copper species via metallacyclic intermediates and/or a catalytic cycle involving copper stabilized trichlorovinyl radicals. The final pathways of conversion of chlorinated benzenes to PCDD/F via chlorophenols are under active investigation.
Keywords
condensation , chlorophenols , Hexachlorobenzene , PCDD/F , inhibition , Acetylene , Chlorination , Dichloroacetylene , Cupric chloride
Journal title
Chemosphere
Serial Year
2001
Journal title
Chemosphere
Record number
735401
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