Low Temperature Sintering of Porous Zeolite Spheres via Waste Glass Powder Addition

Ayse Kurt, A. Kalemtas
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Abstract

ABSTRACT: In this study, porous zeolite spheres were produced at a low temperature by a facile and economical method, sol-gel, using a natural zeolite from the Gördes region of Türkiye and waste soda glass powder. Waste glass powder was achieved by milling the recyclable waste soda glass bottles to be used as a source of silica. Elemental analysis of the waste glass was carried out by using X-ray fluorescence spectrometry. It was determined that Si (57.3 wt. %), Ca (20.9 wt. %), Na (13.9 wt. %), Mg (2.64 wt. %), and Al (1.64 wt. %) were the major constituents of the waste glass. Three different sphere compositions were designed containing 1:1, 3:2, and 7:3 zeolite:waste glass ratio. When the zeolite:waste glass ratio was 1:1 oval-shaped green spheres were achieved. For the compositions containing 3:2, and 7:3 zeolite:waste glass ratio spherical green samples were achieved. Prepared spheres were sintered at 300°, 400°, and 500°C for 1 h. It was observed that the samples could not maintain their spherical form when the sintering temperature was lower than 500°C. Scanning electron microscopy investigation of the spheres sintered at 500°C revealed that highly porous zeolite spheres, containing pores from ~20 µm to nanometre sizes, were achieved. Image J software was used to determine effect of composition on the size and size distribution of the sintered spheres.
通过添加废玻璃粉低温烧结多孔沸石球体
摘要:在这项研究中,使用来自土耳其戈尔杰斯地区的天然沸石和废苏打玻璃粉,通过溶胶-凝胶法在低温下生产出了多孔沸石球。废玻璃粉是通过研磨可回收的废苏打玻璃瓶作为二氧化硅来源而获得的。利用 X 射线荧光光谱法对废玻璃进行了元素分析。结果表明,废玻璃的主要成分是硅(57.3 wt.%)、钙(20.9 wt.%)、纳(13.9 wt.%)、镁(2.64 wt.%)和铝(1.64 wt.%)。设计了三种不同的球体成分,沸石与废玻璃的比例分别为 1:1、3:2 和 7:3。当沸石与废玻璃的比例为 1:1 时,可得到椭圆形的绿色球体。当沸石与废玻璃的比例为 3:2 和 7:3 时,可制得球形绿色样品。将制备好的球体在 300°、400° 和 500°C 温度下烧结 1 小时后发现,当烧结温度低于 500°C 时,样品无法保持球形。对 500°C 烧结的球体进行的扫描电子显微镜研究表明,烧结出的沸石球体具有高孔隙率,孔隙大小从 ~20 微米到纳米不等。使用 Image J 软件确定了成分对烧结球的尺寸和尺寸分布的影响。
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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