Change in re-use value of incinerated sewage sludge ash due to chemical extraction of phosphorus

[Display omitted] •Oxalic acid achieved the highest extraction rates of P, Cu and Zn in ISSA.•The acids increased while chelating agents decreased the leachability of residual Zn and Cu.•Chemical extraction decreased the pozzolanic activity of residual ISSA.•Chelates extraction had little influence...

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Bibliographic Details
Published in:Waste management (Elmsford) 2018-04, Vol.74, p.404-412
Main Authors: Li, Jiang-shan, Chen, Zhen, Wang, Qi-ming, Fang, Le, Xue, Qiang, Cheeseman, C.R., Donatello, Shane, Liu, Lei, Poon, Chi Sun
Format: Article
Language:English
Subjects:
Characterization
Chemical extraction
Heavy metals
Incinerated sewage sludge ash
Phosphorus
Pozzolanic activity
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Summary:[Display omitted] •Oxalic acid achieved the highest extraction rates of P, Cu and Zn in ISSA.•The acids increased while chelating agents decreased the leachability of residual Zn and Cu.•Chemical extraction decreased the pozzolanic activity of residual ISSA.•Chelates extraction had little influence on the characteristics of ISSA. The potential of six different extractants to recover phosphorus (P) from incinerated sewage sludge ash (ISSA) was evaluated. Secondary effects such as the co-dissolution of Zn and Cu were also considered. The residual ISSA from each study was assessed in particular detail, focusing on the leachability of remaining Zn and Cu, major element composition, crystalline phases and overall degree of crystallinity and particle size distribution. The residual ISSA was also evaluated as a pozzolanic material using a Strength Activity Index (SAI) test with mortars containing Portland cement with a 20% substitution by ISSA. All results were compared to tests with untreated ISSA. Overall, the use of 3 of the 6 extractants could be ruled out due to poor P recovery potential and/or a serious compromise of the potential reuse of residual ISSA in Portland cement-based materials. The results highlight the added value of considering the potential reuse of residual ISSA when trying to optimize P recovery from ISSA by wet methods.
ISSN:0956-053X
1879-2456
DOI:10.1016/j.wasman.2018.01.007