AI Article Synopsis
- The study investigates the use of autoclaved aerated concrete particles (AACPs) from construction waste to effectively remove phosphorus and nitrogen in biological aerated filters (BAFs).
- Results indicate that AACPs outperform commercially available ceramsite (CAC), achieving significantly higher removal rates for total nitrogen (45.96% vs. 15.64%) and phosphorus (72.45% vs. 33.97%) when tested at an air/water ratio of 3:1.
- Characterization methods reveal that the unique surface and pore structure of AACPs support the growth of microbial biofilm, and the presence of hydroxyapatite confirms successful phosphorus removal, highlightingAACPs' potential as a sustainable biofilter media for
Article Abstract
In this study, autoclaved aerated concrete particles (AACPs) from construction waste were used to simultaneously remove phosphorus and nitrogen in biological aerated filters (BAFs). The effects of air/water (A/W) ratio on the removal performance of phosphorus (PO ), total organic carbon, total nitrogen (TN), and ammonia nitrogen were investigated. Results showed that AACP BAF was more efficient than commercially available ceramsite (CAC) BAF. For example, the removal rates of TN with AACP and CAC were 45.96% and 15.64%, respectively, and those of PO with AACP and CAC were 72.45% and 33.97%, respectively, at the A/W ratio of 3:1. Different characterization methods were utilized to evaluate the surface shape, elemental compostion, and internal and surface structure of AACP. The interconnectivity and uniformity of pores and the rough surface of AACP were found to be suitable for the growth of microbial biofilm. In addition, the growth of internal pores in AACP promoted the removal of phosphorus and nitrogen. The surface of used AACP contained a small amount of irregular crystals and was covered with a layer of aggregates, which were characterized as hydroxyapatite [HAP, Ca(OH)(PO)]. The formation of HAP as a final byproduct confirmed the successful removal of phosphorus. Therefore, construction wastes, such as AACPs, could be recycled and utilized as a promising biofilter media for excellent wastewater treatment.
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| http://dx.doi.org/10.1080/09593330.2019.1595742 | DOI Listing |
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