Abstract
This work is aimed at exploring the recovery of heavy metals from the fine fraction of solid waste incineration bottom ash. For this study, wet-discharged bottom ash fine-fraction samples from full-scale treatment plants in Germany and Sweden were analyzed. The potential for the recovery of heavy metal compounds was investigated through wet density-separation with a shaking table. The feed materials were processed without any pre-treatment and the optimum processing conditions were determined by means of design of experiments. Tilt angle and stroke frequency were identified as the most relevant parameters, and the optimum settings were − 7.5° and 266 rpm, respectively. The obtained balanced copper enrichments (and yields) were 4.4 (41%), 6.2 (28%) and 2.4 (23%). A maximum copper enrichment of 14.5 with 2% yield was achieved, providing a concentrate containing 35.9 wt.% relevant heavy metal elements. This included 26.3 wt.% iron, 4.3 wt.% zinc and 3.8 wt.% copper. In conclusion, density separation with shaking tables can recover heavy metals from bottom ash fine fractions. Medium levels of heavy metal enrichment (e.g., for Cu 2.7–4.4) and yield (Cu: 26–41%) can be reached simultaneously. However, the separation performance also depends on the individual bottom ash sample.
Highlights
In 2018, in Europe, almost 100 million tons of municipal solid waste (MSW) were thermally treated in 470 waste-toenergy plants producing circa 19 million tons of incineration bottom ash (BA) [1]
Thereby, the aim of the present study is the investigation of valuable metals recovery from MSW incineration BA using a wet shaking table device to compliment the to-date underexploited 0/2 mm fraction of dry BA treatment facilities
Three samples were obtained from BA treatment plants in Germany (A and B) and Sweden (C) between November 2018 and September 2019
Summary
In 2018, in Europe, almost 100 million tons of municipal solid waste (MSW) were thermally treated in 470 waste-toenergy plants producing circa 19 million tons of incineration bottom ash (BA) [1]. BA from thermal waste treatment consists of solid phases as glass, ceramics, ash, and metals Journal of Material Cycles and Waste Management non-ferrous, NFe) already contained in the MSW, as well as new phases that are formed during the combustion process [3,4,5,6]. BA is an extremely inhomogeneous material, and its exact composition depends heavily on the type of waste incinerated, the conditions for incineration and further treatment steps [3, 8, 9]. A typical BA composition [3, 10,11,12] is:
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