Role of zinc in MSW fly ash during formation of chlorinated aromatics.

@article{Fujimori2011RoleOZ,
  title={Role of zinc in MSW fly ash during formation of chlorinated aromatics.},
  author={Takashi Fujimori and Yutaka Tanino and Masaki Takaoka},
  journal={Environmental science \& technology},
  year={2011},
  volume={45 18},
  pages={
          7678-84
        }
}
In this study, we determined the thermochemical role of zinc in municipal solid waste (MSW) fly ash. Zinc's role depended on its chemical form and the presence of other metal catalysts. When only zinc was present or it dominated other metal elements, chlorinated aromatic compound (aromatic-Cl) formation was promoted by zinc chloride but blocked by zinc oxide. When only zinc was present, such as in zinc metallurgical plants, some aromatic-Cls were generated and contaminated the environment. When… 
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References

SHOWING 1-10 OF 30 REFERENCES
Speciation of zinc in municipal solid waste incineration fly ash after heat treatment: an X-ray absorption spectroscopy study.
TLDR
The efforts to detoxify fly ash from municipal solid waste incineration by thermal treatment to produce secondary raw materials suited for reprocessing were inspired by this study, which highlighted the competition between indigenous S and Cl with solid zinc oxides to form either volatile ZnCl2 or solid ZnS.
The effect of copper speciation on the formation of chlorinated aromatics on real municipal solid waste incinerator fly ash.
Direct Speciation of Lead, Zinc and Antimony in Fly Ash from Waste Treatment Facilities by XAFS Spectroscopy
It is important to understand the chemical states of heavy metals in solid waste from municipal incinerator (MSWI) fly ash as both the toxicity and behavior in the environment of heavy metals differ
Catalytic effects by metal oxides on the formation and degradation of chlorinated aromatic compounds in fly ash.
Direct chlorination of carbon by copper chloride in a thermal process.
TLDR
The control of copper may be important to reducing the formation of chlorinated organic compounds in the fly ash of the postcombustion zone in a thermal process, i.e., waste incineration.
Influence of Cu, Fe, Pb, and Zn chlorides and oxides on formation of chlorinated aromatic compounds in MSWI fly ash.
TLDR
Cluster analysis showed the congener distribution patterns of model fly ashes to be similar to the pattern of real MSWI fly ash, indicating the multiple promotion of chlorinated aromatic compound formation by metallic chlorides and oxides in the fly ashes of MSWIs and other thermal processes has considerable importance for the environment.
Dynamic change of copper in fly ash during de novo synthesis of dioxins.
TLDR
Strong evidence is found that oxychlorination, the key mechanistic step in the formation of dioxins, occurred in both real MSWI and model fly ash.
A metal mixture lowers the reaction temperature of copper chloride as shown using in situ quick XAFS
Trace chlorinated organic compounds are generated via thermal processes. Their formation is promoted by copper chloride in solid phase such as fly ash, especially in the post-combustion zone in
Chlorination mechanism of carbon during dioxin formation using Cl-K near-edge X-ray-absorption fine structure.
Many environmental organic chemicals have chloride in their structure. Thus, researching the chlorination mechanism of carbon is of interest. Dioxins are typically concentrated in fly ash collected
Chlorinated aromatic compounds in a thermal process promoted by oxychlorination of ferric chloride.
TLDR
The thermal formation mechanism of aromatic-Cl compounds in the solid phase with ferric chloride is shown, based on the oxychlorination reaction of FeCl(3) at temperatures in excess of ca.
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