玉米秸秆灰作为替代胶凝材料的优化预处理

Mohammad Teymouri , Mahmoud Shakouri
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引用次数: 2

摘要

随着可持续建筑实践越来越受欢迎,研究人员正在研究使用现成且廉价的农业废料作为补充胶凝材料。本研究调查了各种预处理方法对生产从美国四个不同来源收集的预处理玉米秸秆灰的化学成分、晶体结构、形态和成本的影响。本研究还通过抗压强度、流量测量、量热法、,以及热分析。此外,还使用热力学建模来预测用选定的预处理玉米秸秆灰制成的浆料的相组成、孔隙溶液的化学组成、pH和电阻率。结果表明,酸预处理是提高玉米秸秆灰分质量最有效、最经济的方法,它能显著去除原料中的碱。实验结果证实了水泥与预处理玉米秸秆灰之间反应的模拟,表明该系统的火山灰活性和化学物理特性显著增强。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimum pretreatment of corn stover ash as an alternative supplementary cementitious material

As sustainable construction practices become more popular, researchers are looking into using readily available and inexpensive agricultural waste materials as a supplementary cementitious material. This study investigates the impact of various pretreatment methods on the chemical composition, crystal structure, morphology, and cost of producing pretreated corn stover ash collected from four different sources in the U.S. This study also evaluates the performance of mortars and pastes containing treated corn stover ash through tests such as compressive strength, flow measurement, calorimetry, and thermal analysis. In addition, thermodynamic modeling is used to predict the phase composition, chemical composition of the pore solution, pH, and electrical resistivity of pastes made with selected pretreated corn stover ashes. The results suggest that acid pretreatment is the most effective and economical method for improving the quality of corn stover ash and that it removes a significant amount of alkalis from the raw material. The simulation of the reaction between cement and the pretreated corn stover ash was confirmed by the experimental results, indicating a marked enhancement in the pozzolanic activity and chemical and physical characteristics of the system.

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