Incineration bottom ash treatment through accelerated carbonation
In Singapore, incineration is the mam waste management technology used for handling municipal solid waste (MSW), in conjunction with recycling and other waste minimization policy. After incineration, the volume of waste can be reduced up to 90%, thereby significantly reducing the demand of...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2015
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| Online Access: | https://hdl.handle.net/10356/65393 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | In Singapore, incineration is the mam waste management technology used for
handling municipal solid waste (MSW), in conjunction with recycling and other
waste minimization policy. After incineration, the volume of waste can be reduced
up to 90%, thereby significantly reducing the demand of land space for the final
disposal of waste. However, incineration cannot completely eradicate the need for
landfill as the end product of incineration, i.e. incineration ash, still has to be
disposed of properly in a sanitary landfill. Currently, Singapore's only offshore
landfill, Pulau Semakau, is estimated to last till 2035. With a lack of suitable
alternative landfill in land scarce Singapore, there is an urgency to utilize
incineration bottom ash (IBA), which accounts for 85-95% of the total residues
produced after incineration, so as to prolong the lifespan of the landfill. Before IBA
can be utilized, it has to be treated to reduce the leaching of heavy metals. This
research proposes accelerated carbonation for IBA treatment as it has some
advantages over other methods, and has not yet been explored in Singapore.
Literature review has also shown this process is sustainable and economically
viable.Before accelerated carbonation was carried out, the physical and chemical
characteristics of untreated IBA were studied by collecting and analyzing IBA from
two incineration plants in Singapore, over a 6 months period. The two incineration
plants, i.e. SWTEP and TSIP, were selected based on the types of waste received,
which could then produce different mineralogical compositions of IBA. The 6
months sampling period was decided to cover the possible temporal variation of
IBA characteristics. This characterization study showed that the total element
contents of IBA from both incineration plants in Singapore are similar to those in
other countries reported in literature. However, elements like Cd, Co, Hg, Pb and Se
exhibited high variation over the investigated sampling period. Pb showed similar
high variation in leaching test.
The accelerated carbonation experiment was divided into two parts. In the first part,
the influence of moisture content and temperature on accelerated carbonation was investigated using the 0-2 mm size fraction of IBA. The optimum operating
conditions found in the first part was then applied to other size fractions (i.e. 2-4
mm, 4-20 mm and 20-50 mm) in the second part of the experiment. Results showed
that the optimum operating conditions fixed at 20% CO2 for the two incineration
plants were slightly different. For SWTEP, it was 35°C and 15% moisture content.
For TSIP, it was 50°C and 15% moisture content. The carbonation duration for both
plants was 2 hours. XRD analysis showed slight difference between the
mineralogical compositions of the two incineration plants, which could explain the
different optimum carbonation temperatures.
Most of the heavy metals (i.e. Pb, Zn, Cu and Cr) were found to reduce in leaching
after accelerated carbonation, whereas Mo and Sb leaching increased after
carbonation. After sieving, the amount released from untreated IBA decreased as
the size fractions increased. The leaching mechanism among the different size
fractions was found to be similar. Despite the limitations in reducing the leaching of
certain trace elements, accelerated carbonation was able to significantly reduce the
amount released of Pb, Zn, Cu and Cr, which were much higher in the amount
released, compared to Mo and Sb. On the other hand, accelerated carbonation was
found to be ineffective in reducing the leaching of soluble salts.
In conclusion, this research has shown that accelerated carbonation has the potential
to treat IBA effectively within a short time frame. |
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