Journal
CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY
Volume 51, Issue 9, Pages 939-971Publisher
TAYLOR & FRANCIS INC
DOI: 10.1080/10643389.2020.1740545
Keywords
Phosphorus recovery; incinerated sewage sludge ash; wet-extraction
Categories
Funding
- Hong Kong Research Grants Council GRF [PolyU 152132/14E]
- Environment and Conservation Fund
- National Natural Science Foundation of China/Hong Kong Research Grants Council Joint Research Scheme [N_PolyU511/18]
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This study focuses on phosphorus recovery from incinerated sewage sludge ash (ISSA) and suggests recommendations including optimizing the extraction process, developing plant-available adsorption media, and forming a high-purity phosphorus product.
Incinerated sewage sludge ash (ISSA) is produced worldwide where incineration is used to manage sewage sludge. ISSA contains significant amounts of phosphorus (P) with high recovery potential, and may contribute to mitigate the global P supply problem. This study reviews P transformation in sewage sludge incineration, the characteristics of the resultant ISSA and processes for P recovery from ISSA focusing on wet-extraction methods due to their greater feasibility. The major drawback of the wet-extraction method is the co-dissolution of metal(loid)s. Hence, purification of the P-extract is necessary to produce a P fertilizer. Based on the analysis, three recommendations are made for further studies. One is optimizing the extraction process to produce a P-extract with a high content of P and low contents of impurities. The second is to develop a plant-available adsorption media, which can selectively adsorb P from the acid-extract of ISSA making the P-laden media as P fertilizers directly. The third is to form a high-purity P product that would be cost-competitive and attractive for use in diverse sectors. Finally, since the criteria for recovered phosphate fertilizer is incomplete, the agronomic effectiveness of newly produced P fertilizer from ISSA should be evaluated prior to large scale applications.
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