浸渍金属锡的天然沸石催化剂在温度变化下葡萄糖异构化中的应用

Dwiditya Pamungkas, S. Amalia, S. N. Khalifah
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引用次数: 0

摘要

研究了天然沸石催化剂在葡萄糖异构化反应中的活化、修饰及催化活性。采用nh4no32m催化剂对天然沸石进行活化。将0.24 M Sn金属浸渍在HZA上改性,得到催化剂Sn-HZA。在这一阶段,水热法在90℃温度下进行12小时,然后在500℃温度下煅烧4小时。表征包括XRD分析、SEM-EDAX分析、氨法测定酸度、亚甲基蓝吸附法测定表面积。在温度变化为110、120和130℃时,通过分析第0、1、2、3和4小时的偏振光计获得葡萄糖转化率。用高效液相色谱法对偏光仪测定的转化率最高的溶液进行分析。XRD分析表明,活化和改性后的沸石结构没有发生变化。SEM-EDAX分析表明,沸石表面形貌未受破坏,Sn金属浸渍率为6.94%。HZA和Sn-HZA活性分别为1,4850 mmol/g和2,3145 mmol/g。HZA和Sn-HZA的比表面积分别为11,4077 m2 /g和11,4738 m2 /g。反应温度为120℃时,Sn-HZA催化剂对葡萄糖和果糖的转化率具有最高的选择性。分别为140733% w/v和0646% w/v。关键词:催化剂,葡萄糖,异构化,天然沸石,金属锡
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Utilization of Natural Zeolite Catalyst Impregnated Sn Metal in Glucose Isomerization With Temperature Variations
Studied the characteristics of natural zeolite catalysts activated and modifications and catalytic activity in the isomerization of glucose. Natural zeolite was activated by NH 4 NO 3 2 M obtained catalyst HZA. While modification using 0,24 M Sn metal impregnated on HZA obtained catalyst Sn-HZA. At this stage, hydrothermal process carried out at temperature of 90 °C for 12 hours followed by calcination at temperature of 500 °C for 4 hours. The characterization includes the XRD analysis, SEM-EDAX analysis, acidity by ammonia method, and surface area by adsorption of methylene blue method. Glucose conversion was obtained through analysis of polarimeter at hour-0, 1, 2, 3, and 4 with temperature variation of 110, 120, and 130 °C. Solution which had the highest conversion resulted by polarimeter was analyzed by HPLC. XRD analysis showed that there were no changes in the structure of zeolite after activation and modification process. SEM-EDAX analysis showed that morphology of the zeolite surface is not damaged and Sn metal was successfully impregnated 6,94 %. The activity of HZA and Sn-HZA was 1,4850 mmol/g and 2,3145 mmol/g. while the surface area of HZA and Sn-HZA was 11,4077 m 2 /g and 11,4738 m 2 /g. Using the Sn-HZA catalyst with the reaction temperature of 120 °C provides the highest conversion of glucose and fructose selectivity. It were 14,0733 % w/v and 0,646 % w/v. Keywords : Catalyst, glucose, isomerization, natural zeolite, Sn metal.
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