Utilization of municipal solid waste incineration fly ash as construction materials based on geopolymerization

IF 5.4 Q1 ENVIRONMENTAL SCIENCES Resources, conservation & recycling advances Pub Date : 2023-06-01 DOI:10.1016/j.rcradv.2023.200162
Yueheng Chen , Ming Zhao , Yi Lv , Zhao Jia Ting , Sheng Zhao , Zibiao Liu , Xiang Zhang , Yuanda Yang , Yan You , Wenyi Yuan
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引用次数: 1

Abstract

Incineration has been widely used to dispose municipal solid wastes (MSWs) with heat recovery. The generation of fly ash (FA, around 3∼5 wt% of the fed amount) that is normally defined as hazardous wastes remains a serious problem. It is ideal to work out a way to reutilize FA for valuable use instead of landfilling. As a novel utilization technology for municipal solid waste incineration (MSWI) fly ash, geopolymerization can produce geopolymer as construction materials with the advantages of low energy consumption, low pollution and high utilization rate. In this paper, metakaolin (MK) and washed fly ash (WFA) were used to prepare MSWI fly ash-based geopolymer (FAG) with alkali activator. Besides, the strength, heavy metals immobilization and acid resistance of FAG were in detail studied. Under the proper formulation, all the prepared FAGs exhibited strength higher than MU15 level (≥15 MPa) and the maximized one reached MU30 (≥30 MPa). Heavy metals including Cr, Mn, Cu, As, Pb, Zn and Cd had a immobilization rate of more than 92%, and others like As, Pb and Zn were nearly fully immobilized. As for the simulated testing for acid rain scenario, FAG could still fix up the heavy metals well indicating a controllable risk for the environment, which could be ascribed be its high acid neutralization capacity. In a word, this work reports a feasible method for treatment and resource reutilization of MSWI fly ash.

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基于地质聚合的城市生活垃圾焚烧飞灰建筑材料的利用
焚烧已被广泛用于处理具有热回收功能的城市固体废物。通常被定义为危险废物的飞灰(FA,约占进料量的3~5wt%)的产生仍然是一个严重的问题。找出一种方法来重新利用FA以获得有价值的用途而不是填埋是理想的。地质聚合作为一种新型的城市生活垃圾焚烧粉煤灰利用技术,可以生产出能耗低、污染小、利用率高的地质聚合物建筑材料。以偏高岭土(MK)和粉煤灰(WFA)为原料,采用碱活化剂制备了MSWI粉煤灰基地质聚合物(FAG)。此外,对FAG的强度、重金属固定化和耐酸性进行了详细的研究。在适当的配方下,所有制备的FAG都表现出高于MU15水平(≥15MPa)的强度,最大强度达到MU30(≥30MPa)。Cr、Mn、Cu、As、Pb、Zn和Cd等重金属的固定化率超过92%,As、Pb和Zn等重金属几乎完全固定化。至于酸雨情景的模拟测试,FAG仍然可以很好地固定重金属,这表明其对环境的风险是可控的,这可以归因于其高的酸中和能力。总之,本工作报告了一种可行的MSWI粉煤灰处理和资源再利用方法。
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来源期刊
Resources, conservation & recycling advances
Resources, conservation & recycling advances Environmental Science (General)
CiteScore
11.70
自引率
0.00%
发文量
0
审稿时长
76 days
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