碱活性材料中的生物质木灰综述:处理、应用和展望

Yiying Du, I. Pundienė, J. Pranckevičienė, M. Kligys, G. Girskas, A. Korjakins
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引用次数: 0

摘要

硅酸盐水泥的使用引起了人们的极大关注,因为其生产对环境造成了巨大压力。人们开发了替代性生态粘合剂来取代波特兰水泥,其中碱活性材料(AAMs)引起了人们的极大关注,尤其是因为它可以包含工业和农业废料,从而大大提高了材料的可持续性和成本效益。生物质木灰(BWA)是发电厂产生的一种副产品,随着生物质燃料作为可再生能源的推广,BWA 在建筑和构造材料中的应用也越来越多。本综述探讨了将 BWA 用作 AAM 的前驱体来源。由于其化学和水力反应活性较低,通常需要引入活性更高的二元前驱体来保证其机械性能。虽然增加 BWA 的含量会对材料强度的发展产生负面影响,但它仍然是一种前景广阔的可行材料,因此应开发新的方法来提高其利用效率。目前,对基于 BWA 的 AAMs 的研究仍处于起步阶段,需要开展更多研究来探讨 BWA 特性对 AAMs 性能演变的影响,重点是耐久性和生态效益分析。总之,本综述全面概述了 BWA 的特性及其在 AAM 中的潜在应用,同时在分析当前研究趋势的基础上,提出了一些未来研究的前瞻性方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Review of Biomass Wood Ash in Alkali-Activated Materials: Treatment, Application, and Outlook
The utilisation of Portland cement has aroused tremendous concerns owing to its production exerting a lot of pressure on the environment. Alternative eco-binders have been developed to replace it, among which alkali-activated materials (AAMs) have drawn great attention, especially due to the possibility of encompassing industrial and agricultural waste, which significantly improves the sustainability and cost-efficiency of the material. Biomass wood ash (BWA) is a by-product generated from power plants and, along with the advocation for biomass fuel as a renewable energy resource, there have been increasing applications of BWA in building and construction materials. This review examines the use of BWA as a precursor source in AAMs. Due to its low chemical and hydraulic reactivity, more active binary precursors are usually introduced to guarantee mechanical properties. Whereas the increment of BWA content can have a negative influence on material strength development, it is still a promising and feasible material, and new approaches should be developed to improve the effectiveness of its utilisation. Currently, study of BWA-based AAMs is still in the beginning stages and more research is needed to investigate the effects of BWA characteristics on the property evolution of AAMs, focusing on the durability and analysis of eco-efficiency. Overall, this review provides a comprehensive overview of the characterisation of BWA and its potential applications in AAMs, and meanwhile, based on the analysis of present research trends, proposes some prospective directions for future research.
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