首页|期刊导航|实验技术与管理|磷改性牡蛎壳对飞灰的稳定化效果的实验研究

磷改性牡蛎壳对飞灰的稳定化效果的实验研究OA

Experimental study on the stabilization effect of phosphorus-modified oyster shell on fly ash

中文摘要英文摘要

针对生活垃圾焚烧飞灰中重金属(Pb、Cd、Zn 等)浸出毒性高问题,该研究采用 K2HPO4 改性牡蛎壳作为稳定化材料,探究其制备工艺优化及对飞灰中重金属的固定效果.通过单因素实验确定最佳改性条件为K2HPO4/牡蛎壳质量比为0.2、煅烧温度为400℃、煅烧时间为30 min.表征结果表明,改性后牡蛎壳形成多孔"珊瑚状"结构,并引入CaHPO4 和Ca(OH)2 等活性组分.飞灰稳定化实验显示,添加5%改性牡蛎壳可使Pb、Cd浸出浓度分别降至0.03 mg/L和0.05 mg/L,低于GB 16889-2008限值.形态分析表明,改性牡蛎壳促使重金属从酸提取态(F4)向残渣态(F5)转化,其中 Pb 的残渣态比例提升至 85%以上.机理分析表明,重金属固定主要通过磷酸盐沉淀(如 Pb3(PO4)2)、离子交换(Ca2+置换)及羟基磷灰石吸附实现.生态风险评估证实,改性牡蛎壳降低了重金属的迁移性和生态风险.

[Objective]Safe disposal of municipal solid waste incineration(MSWI)fly ash,a hazardous waste rich in leachable heavy metals(e.g.,Pb,Cd,and Zn),poses severe environmental challenges.[Methods]In this study,we fabricated K2HPO4-modified waste oyster shell(MOS)as a novel,cost-effective stabilization material and investigated its effectiveness and mechanism for immobilizing heavy metals in MSWI fly ash.The modification process was systematically optimized through single-factor experiments.The optimal conditions were determined to be a K2HPO4-to-oyster shell mass ratio of 0.2,a calcination temperature of 400℃,and a calcination time of 30 min.Characterization analyses,including scanning electron microscopy,X-ray diffractometry,and Fourier transform infrared spectroscopy,revealed that the modification process successfully transformed the smooth surface of raw oyster shells into a porous"coral-like"structure,substantially increasing the specific surface area.Further,the modification introduced active components such as calcium hydrogen phosphate(CaHPO4)and portlandite(Ca(OH)2),thereby enhancing the material's reactivity.[Results]Stabilization experiments conducted on real MSWI fly ash demonstrated the high efficiency of MOS.With an addition of only 5%MOS,the leaching concentrations of key hazardous metals,Pb and Cd,were drastically reduced to 0.03 and 0.05 mg/L,respectively.These values are well below the stringent regulatory limits for hazardous waste landfill disposal stipulated by the Chinese standard(GB 16889-2008).To elucidate the stabilization mechanism,sequential extraction procedures(BCR)were employed to analyze changes in the chemical speciation of heavy metals before and after treatment.The results indicated that MOS effectively promoted the conversion of heavy metals from unstable,acid-extractable fractions(F4)to the highly stable residual fraction(F5).Notably,the proportion of Pb in the residual fraction increased to more than 85%,significantly reducing its potential mobility and bioavailability.The immobilization mechanisms were identified as a combination of several synergistic processes.(1)Precipitation:Phosphate ions(PO43-)released from MOS reacted with heavy metal ions(e.g.,Pb2+and Cd2+)to form highly insoluble phosphate precipitates(e.g.,Pb3(PO4)2 and Cd3(PO4)2),which are extremely stable in the environment.(2)Ion exchange:Calcium ions(Ca2+)from the MOS matrix could be exchanged with heavy metal ions on the surface of fly ash particles or formed compounds.(3)Adsorption and incorporation:The formed hydroxyapatite(Ca10(PO4)6(OH)2),a major component after modification,provided ample adsorption sites and could incorporate heavy metal ions into its crystal lattice through isomorphic substitution.Ecological risk assessment,evaluated using the risk assessment code and individual contamination factor,confirmed that MOS treatment substantially reduced the mobility and potential ecological risk of heavy metals in the fly ash.[Conclusions]In conclusion,this study successfully transforms waste oyster shells into a highly efficient stabilization agent for MSWI fly ash.MOS offers a promising,low-cost,and"waste-treating-waste"strategy for the safe disposal of MSWI fly ash,contributing to both waste resource utilization and environmental remediation.The findings provide a theoretical foundation and technical support for developing sustainable and economically stable materials for heavy metal contamination management.

曹庆阳;黄开波;王旭程;符小坤;葛立军;杜雨菲;余泽洋;尚昊;祁乐;闫小刚

广西建工科净源生态环保产业投资有限公司,广西 南宁 53020海南大学 环境科学与工程学院,海南 海口 570228中国热带农业科学院环境与植物保护研究所,海南 海口 571101海南大学 环境科学与工程学院,海南 海口 570228中电建建筑集团有限公司,北京 100120海南大学 环境科学与工程学院,海南 海口 570228中电建建筑集团有限公司,北京 100120中电建建筑集团有限公司,北京 100120中电建建筑集团有限公司,北京 100120中电建建筑集团有限公司,北京 100120

资源环境

飞灰磷改性牡蛎壳稳定化生态风险

fly ashphosphorus-modified oyster shellstabilizationecological risk

《实验技术与管理》 2026 (3)

98-107,10

海南自然科学基金项目(423RC433)海南大学教育教学改革研究项目(hdjy2481,hdjy2482)海口颜春岭生活垃圾填埋场环境治理和生态修复工程设计施工总承包项目(HD-KYH-2025018)

10.16791/j.cnki.sjg.2026.03.013

评论