Title :
Plasma Vitrification of Air Pollution Control Residues From Municipal Solid-Waste Incineration
Author :
Tu, Xin ; Yu, Liang ; Yan, Jianhua ; Cen, Kefa ; Chéron, Bruno G.
Author_Institution :
Sch. of Chem., Univ. of Manchester, Manchester, UK
Abstract :
In the frame of studies devoted to hazardous waste destruction, a specially designed plasma torch with a doubleanode configuration has been developed and tested. It produces an elongated, weak-fluctuation, and reproducible plasma jet at atmospheric pressure. A calcium-rich air pollution control residue from a mechanical-grate municipal solid-waste incinerator is vitrified by this plasma arc technology. The produced slag shows a homogeneous, dense, and amorphous glassy structure, as confirmed by scanning electron microscopy and X-ray diffraction. Leaching results show that excellent immobilization of heavy metals in the silicate matrix can be achieved. Plasma vitrification also ensures high elimination efficiency (> 99.9%) of dioxins and furans. These results indicate that the slag produced has great potential for construction or geotechnical applications.
Keywords :
X-ray diffraction; air pollution control; building materials; incineration; leaching; plasma applications; refuse disposal; scanning electron microscopy; slag; vitrification; X-ray diffraction; air pollution control residues; construction applications; dioxins; furans; geotechnical applications; hazardous waste destruction; leaching; municipal solid waste incineration; plasma arc technology; plasma vitrification; scanning electron microscopy; slag; Air pollution; Amorphous materials; Atmospheric-pressure plasmas; Electrons; Incineration; Plasma density; Plasma x-ray sources; Slag; Testing; Vitrification; Air pollution control (APC) residue; leaching test; plasma arc; plasma torch; slag; vitrification;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2010.2056939
