王宝民

个人信息Personal Information

教授

博士生导师

硕士生导师

任职 : 建筑材料研究所所长、土木水利国家级实验教学中心常务副主任

性别:男

毕业院校:大连理工大学

学位:博士

所在单位:建设工程学院

学科:材料学. 结构工程. 市政工程

办公地点:大连理工大学3号实验楼

联系方式:0411-84707101

电子邮箱:wangbm@dlut.edu.cn

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Hydration behavior and immobilization mechanism of MgO-SiO2-H2O cementitious system blended with MSWI fly ash

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论文类型:期刊论文

发表时间:2020-02-24

发表刊物:Chemosphere

收录刊物:PubMed

卷号:250

页面范围:126269

ISSN号:1879-1298

关键字:Hydration process,Immobilization,MSWI fly ash,MgO–SiO(2)–H(2)O,Morphology

摘要:MSWI(Municipal solid waste incineration) fly ash as hazardous wastes usually is treated properly with OPC(ordinary Portland cement) based binders prior to being disposed in security landfill, but some toxic elements present poor stability in its highly alkaline environment. This study developed a novel solidification/stabilization technology based on MgO-SiO2-H2O (M-S-H) cementious material with compatibility with contaminants for MSWI fly ash encapsulation. Compressive strength and leaching toxicity tests were undertaken to evaluate the immobilization effect of MSWI fly ash treated with M-S-H matrix. And TAM, XRD, DTA/TGA and SEM techniques were employed to explore hydration process and microstructure morphology of M-S-H solidified body. Results demonstrated that M-S-H cement matrix played a positive impact on the immobilization of heavy metals, and the immobilization rate of Cd, Pb and Zn was 97.5%, 99.8% and 98.7%, which was far more than that fixed in Portland cement. The incorporation of MSWI fly ash inhibited the hydration process of M-S-H matrix on the whole, which was mainly due to its poor pozzolanic activity. Moreover, there were some new hydration phases including CdSiO3, Ca3PbSiO6 and Zn(OH)2 generated and some MSWI fly ash embedded in the core-shell structure of M-S-H matrix in depth. These results suggested that heavy metals of MSWI fly ash were mainly fixed in M-S-H solidified bodies by physical encapsulation, isomorphous replacement and chemical precipitation. Overall, this study demonstrated that M-S-H matrix is a promising candidate that can serve as low-carbon and high-efficient materials for hazardous MSWI fly ash.Copyright © 2020 Elsevier Ltd. All rights reserved.