环境卫生工程 ›› 2026, Vol. 34 ›› Issue (3): 34-44.doi: 10.19841/j.cnki.hjwsgc.2026.03.005

• 固体废物分选与资源化利用 • 上一篇    下一篇

碱激发生活垃圾焚烧底灰胶凝材料的反应机制与性能研究进展

冯 至,吴 珣,吴 越,曹展硕,许陆飞,马砚池,张辉宇   

  1. 1. 河海大学 土木与交通学院;2. 河海大学 精细爆破全国重点实验室
  • 出版日期:2026-06-30 发布日期:2026-06-30

Research Progress on the Reaction Mechanisms and Properties of Alkali-activated Municipal Solid Waste Incineration Bottom Ash Cementitious Materials

FENG Zhi, WU Xun, WU Yue, CAO Zhanshuo, XU Lufei, MA Yanchi, ZHANG Huiyu   

  1. 1. College of Civil and Transportation Engineering, Hohai University; 2. State Key Laboratory of Precision Blasting, Hohai University
  • Online:2026-06-30 Published:2026-06-30

摘要: 生活垃圾焚烧底灰来源广泛且富含 Si、Ca、Al 等活性组分,是制备碱激发胶凝材料的理想原料,但其中含有的重金属与可溶性盐需通过预处理加以管控。该类胶凝材料的水化机理为碱性环境主导的过程,水化程度受底灰细度、碱激发剂类型及辅助胶凝材料特性的协同调控。研究表明,优化激发剂与复合体系配比可提升材料力学性能;适当预处理能增强其抗冻融、抗硫酸盐侵蚀能力;碱激发体系通过凝胶的物理封装与化学键合作用,可高效固化重金属,保障环境安全性;合理匹配激发剂体系、底灰特性与辅助胶凝材料,是实现凝结时间精准调控、保障其工程应用成功的关键手段。但当前研究仍面临瓶颈,特别是关于复合激发剂的协同作用机制、反应路径及微观结构演化规律尚未明确,材料长期耐久性及真实服役环境下的性能演化缺乏系统研究。

关键词: 生活垃圾焚烧底灰, 碱激发胶凝材料, 水化机理, 力学性能, 耐久性, 重金属固化

Abstract: Municipal solid waste incineration (MSWI) bottom ash represents a promising precursor for alkali-activated cementitious materials, owing to its abundant supply and high content of reactive Si, Ca, and Al. However, effective pretreatment is mandatory to manage its inherent heavy metals and soluble salts. The hydration mechanism of this type of cementitious material is a process dominated by an alkaline environment. The hydration degree is synergistically tunable by the ash fineness, alkali activator type, and supplementary cementitious materials. Research demonstrates that optimizing the ratio of activators to composite systems can enhance mechanical performance, while suitable pretreatment improves durability against freeze-thaw and sulfate attack. The alkali-activated system also ensures environmental safety by efficient immobilizing heavy metals via gel-based physical encapsulation and chemical bonding. Rational matching of the activator system, the bottom ash characteristics and the auxiliary cementitious materials is pivotal for tailoring the setting time to ensure the success of its practical application. However, key research bottlenecks still persist, particularly concerning the synergistic mechanisms of composite activators, detailed reaction pathways and microstructural evolution remain unclear, alongside a lack of systematic investigation into long-term durability of materials and their performance evolution under real service conditions.

Key words: municipal solid waste incineration bottom ash, alkali-activated cementitious materials, hydration mechanism, mechanical properties, durability, heavy metal solidification

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