Metal Recovery and Refining from MSW Incineration Bottom Ash
Bottom ash is a solid waste stream in a Waste-to-Energy (WTE) processing plant during the combustion of the municipal solid waste (MSW).In the Netherlands,bottom ash contains typically about 18% metals originated from the MSW,and current industrial practice could recover about 10% metals through magnetic and eddy current separators.The remaining 8% as the finer particles is difficult to recover through current physical separation technology.Among various alternatives,vitrification is one of the promising options to immobilize the ash and recover the remaining metals.During vitrification a homogeneous glassy slag and a Fe-Cu based alloy were obtained.In the current study,the metal alloy recovered from the bottom ash originated from a Dutch Waste-to-Energy plant contains about 82 wt% Fe,12 wt% Cu and 6 wt% other alloying elements and impurities such as C,S,P,Ni etc.The generated alloy does not have direct commercial applications,and separation of copper from iron-based alloy is critical to obtain the market value of both copper and ferrous constituents.To find a suitable processing route of this metal alloy,various alternative approaches have been considered for an efficient removal of copper from the alloy,and the focus in the present study was on the sulphide treatment at elevated temperatures of 1400~1500℃.The tested sulphide systems include pure FeS,FeS containing sulphide mixture (such as Na2S and Al2S3),pyrite (FeS2) mineral,ZnS containing sludge as an industrial waste.It was found that the carbon saturation of the alloy is proved to be an essential condition for a proper phase separation.The results showed that FeS mixed with Na2S,ZnS containing sludge and pyrite are effective sulphide systems for copper removal with a removal efficiency of 92% by using pyrite and 95% by zinc sludge at a S/Cu ratio of around 7 times of the stoichiometry.The copper content drops from 12 wt% to about 2 wt%.However,it is still difficult to remove copper completely from the alloy in a single step,and a multi-step operation is needed.The present research is expected to contribute both to the utilization of the metal recovered from bottom ash,and to the general recycling of steel scrap where copper removal from the steel scrap is a critical issue.
MSW incineration Bottom ash Metal recovery Copper removal Sulphide treatment
Y.X.Yang C.F.Balentina D.Brouwer Y.Xiao R.Boom J.H.L.Voncken
Department of Materials Science and Engineering,Delft University of Technology,The Netherlands Department of Geotechnology,Delft University of Technology,The Netherlands
国际会议
XXIV International Mineral Processing Congress(第24届国际矿物加工大会)
北京
英文
3582-3591
2008-09-24(万方平台首次上网日期,不代表论文的发表时间)