Solid Fuel Chemistry ( IF 0.7 ) Pub Date : 2021-12-08 , DOI: 10.3103/s0361521921060148 Srivastava Anjuri 1, 2 , Yadav Surabhi 1 , Srivastava Sanjay 2
Abstract
The recent advancements in spectroscopic techniques have made them a powerful tool for identifying, characterizing, and quantifying materials and compounds. This paper represents fly ash’s characterization for its effective utilization in various fields by using spectroscopic techniques such as SEM, EDS, FTIR, XRD, XPS, AAS, and flame photometer. Analysis of different fly ash samples and their incorporation with cement showed that they might be the right pH stabilizer. Sample collected from disposal sites enriched with the microelement may be useful for incorporating soil because of having a higher concentration of Cu, Mn, Zn, and boron phosphate, which may help stabilize and execute such elemental deficiency in the soil. The SEM study reveals that samples collected from electrostatic precipitator may be useful in ceramics and distemper manufacturing by replacing white cement based on particle size. FTIR and XRD results deduced that these samples have a higher concentration of quartz, boron nitride, and mullite mineral, which may help construction and reclamation in the nearby region.
中文翻译:
Jhansi 的 Parichha 热电厂粉煤灰量化验证方法使用光谱技术在各个领域的潜在用途
摘要
光谱技术的最新进展使它们成为识别、表征和量化材料和化合物的强大工具。本文通过使用 SEM、EDS、FTIR、XRD、XPS、AAS 和火焰光度计等光谱技术表征了粉煤灰在各个领域的有效利用。对不同飞灰样品及其与水泥的掺入分析表明,它们可能是合适的 pH 稳定剂。从富含微量元素的处置场所收集的样品可能有助于掺入土壤,因为具有较高浓度的铜、锰、锌和磷酸硼,这可能有助于稳定和执行土壤中的这种元素缺乏。SEM 研究表明,从静电除尘器收集的样品可用于陶瓷和瘟热制造,可根据颗粒大小替代白水泥。FTIR和XRD结果推断,这些样品中石英、氮化硼和莫来石矿物的含量较高,可能有助于附近地区的建设和复垦。