Sustainable use of rice husk powder and bamboo powder as sludge deep dewatering conditioners in pilot-scale application: feasibility for incineration and potential application for land use

Aimin Li, Yuzhi Li, Kaiwen Huang, Lian Song, Fei Shen, Shuo Wang, Ji Li
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Abstract

Conventional conditioners are not conducive to the sludge separate incineration process. The agricultural wastes bamboo powder (BP) and rice husk powder (RHP) have strong toughness and porosity, which has the potential to replace quicklime as a sludge conditioner. When the dosage of BP and RHP is 30% of the sludge dry solids, the dewatering performance of sludge was greatly improved after sludge was conditioned with BP and RHP respectively, where the specific resistance of sludge was reduced from 4.6×1012 m/kg to 1.3×1012 and 0.9×1012 m/kg. In addition, the sludge conditioned by BP and RHP acquired better filtrate quality, which is conducive to the stable operation of the wastewater treatment plants (WWTPs). The components of extracellular polymer substances (EPS) showed that the tightly bound-EPS (TB-EPS) decreased by 36.6% after conditioning with quicklime, while the TB-EPS maintained with BP and RHP conditioning, indicating that the dewatering mechanism of BP and RHP involves physical activities to work as the skeleton builder. The use of BP and RHP increased the enrichment effect of nitrogen and phosphorus in the sludge cake, yet the contents of heavy metals Cd, Pb and Zn were below the sludge land use limit. Combined with the ecological risk assessment by the methods of the Geoaccumulation index (Igeo), the Nemerow pollution index (PI) and the potential ecological risk index (RI), the ecological risk index of quicklime-conditioned sludge is higher when the dewatered sludge is composted and applied for land use, while the ecological risk after conditioning by BP and RHP is in a slightly polluted or non-polluted state, therefore the application of BP and RHP as the deep dewatering conditioners possesses practical potential for land use.
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稻壳粉和竹粉作为污泥深度脱水调节剂在中试中的可持续利用:焚烧的可行性和土地利用的潜在应用
常规调理器不利于污泥分离焚烧工艺。农业废弃物竹粉(BP)和稻壳粉(RHP)具有较强的韧性和孔隙度,具有替代生石灰作为污泥调理剂的潜力。当BP和RHP的投加量为污泥干固体的30%时,分别对污泥进行BP和RHP调理后,污泥的脱水性能大大提高,污泥的比阻从4.6×1012 m/kg降低到1.3×1012和0.9×1012 m/kg。此外,经BP和RHP处理后的污泥滤液质量较好,有利于污水处理厂的稳定运行。胞外聚合物(EPS)的组成表明,生石灰处理后紧密结合的EPS (TB-EPS)减少了36.6%,而BP和RHP处理后的TB-EPS保持不变,说明BP和RHP的脱水机制涉及身体活动,具有骨架构建作用。BP和RHP的使用提高了污泥饼中氮、磷的富集效果,但重金属Cd、Pb、Zn含量均低于污泥土地利用限值。结合Geoaccumulation指数(Igeo)、Nemerow污染指数(PI)和潜在生态风险指数(RI)的方法进行生态风险评价,脱水污泥堆肥后应用于土地利用的生石灰污泥生态风险指数较高,而BP和RHP调理后的生态风险处于轻度污染或未污染状态;因此,BP和RHP作为深度脱水调节剂具有实际的土地利用潜力。
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