磷酸盐
磷
吸附
化学
水处理
磷矿
生物炭
废水
残余物
修正案
核化学
环境化学
环境科学
环境工程
数学
有机化学
热解
法学
政治学
算法
作者
Jinkai Xue,Jianfei Chen,Jinyong Liu,Seyed Hesam‐Aldin Samaei,Leslie J. Robbins
标识
DOI:10.21203/rs.3.rs-4558561/v1
摘要
Abstract Water treatment residual (WTR) is a burden for many water treatment plants due to the large volumes and associated management costs. Here, we transform aluminum-salt WTR (Al-WTR) into ceramsite (ASC) to recover phosphate from challenging waters. ASC showed remarkably higher specific surface area (SSA, 70.53 m2/g) and phosphate adsorption capacity (calculated 47.2 mg P/g) compared with previously reported ceramsite materials (< 40 m2/g SSA and < 20 mg P/g). ASC recovered > 94.9% phosphate over a wide pH range (3 – 11) and generally sustained > 90% of its phosphate recovery at high concentrations of competing anions (i.e., Cl-, F-, SO42-, or HCO3-) or humic acid (HA). We challenged the material with real municipal wastewater at 10℃ and achieved simultaneous phosphate (>97.1%) and COD removal (71.2%). Once saturated with phosphate, ASC can be repurposed for landscaping or soil amendment. Economic analysis indicates that ASC can be a competitive alternative to natural clay-based ceramsite, biochar, or other useful materials. Therefore, ASC is an eco-friendly, cost-effective adsorbent for phosphate recovery from complex waters, shedding light upon a circular economy in the water sector. Synopsis: Ceramsite made from aluminum-salt water treatment residual exhibited great capability of recovering phosphate from waters under challenging conditions.
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