Upcycling of Boro-Alumino-Silicate Pharmaceutical Glass in Sustainable Construction Materials

IF 1.2 Q4 ENGINEERING, ENVIRONMENTAL Detritus Pub Date : 2022-09-20 DOI:10.31025/2611-4135/2022.15218

Giulia Tameni, Francesco Cammelli, H. Elsayed, Francesco Stangherlin, E. Bernardo

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引用次数: 3

Abstract

The present Covid-19 emergency has dramatically increased the demand for pharmaceutical containers and the amounts of related waste. This paper aims at presenting the upcycling of discarded pharmaceutical glass into various porous ceramics, starting from the activation of fine powders suspended in weakly alkaline solutions (2.5 M NaOH/KOH). The alkaline attack determines the gelation of glass suspensions, according to hydration of glass surfaces, followed by condensation starting from 40 °C (‘cold consolidation’). Alkali are mostly expelled from the gel, according to the formation of water-soluble hydrated carbonates. The mutual binding of activated powders was exploited for the encapsulation of waste-derived glass (from the plasma processing of municipal solid waste) and quartz sand as coarse aggregate. Moreover, industrial mud could be used instead of water in the preparation of alkaline solutions. Depending on the formulations, products comparable to facing bricks can be obtained directly after cold consolidation or after application of low temperature (700 °C) firing. In addition, selected formulations led to highly porous glass foams, to be used for thermal and acoustic insulation.

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硼硅酸铝药用玻璃在可持续建筑材料中的上循环

目前的新冠肺炎紧急情况大大增加了对药品容器的需求和相关废物的数量。本文旨在从悬浮在弱碱性溶液（2.5M NaOH/KOH）中的细粉末的活化开始，将废弃的药用玻璃向上循环成各种多孔陶瓷。根据玻璃表面的水合作用，碱性侵蚀决定了玻璃悬浮液的凝胶化，然后从40°C开始冷凝（“冷固结”）。根据水溶性水合碳酸盐的形成，碱主要从凝胶中排出。活性粉末的相互结合被用于封装废弃玻璃（来自城市固体废物的等离子体处理）和石英砂作为粗骨料。此外，工业泥浆可以代替水用于制备碱性溶液。根据配方的不同，可以在冷固结后或低温（700°C）烧制后直接获得与饰面砖相当的产品。此外，选定的配方产生了高度多孔的玻璃泡沫，用于隔热和隔音。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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