CO Methanation Over SAPO-34 Supported Ni Catalysts

IF 1 Q3 MULTIDISCIPLINARY SCIENCES gazi university journal of science Pub Date : 2022-10-21 DOI:10.35378/gujs.1125710
Filiz BALIKÇI DEREKAYA, Y. Kilinç
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Abstract

In this study, carbon monoxide methanation was investigated with 15 %NiO doped SAPO34 zeolite supported catalysts. The SAPO34 support was produced by hydrothermal synthesis, and nickeloxide was added to the support by impregnation and surfactant impregnation method by using different solvents (water, ethanol, acetone and 1-propanol). Various characterization techniques were used to determine the physical properties of catalysts and support (N2 physisorption, XRD, SEM, TEM, FTIR). XRD analysis showed that synthesizing the catalysts with surfactant reduced the average crystal size. The average crystal sizes of the catalysts prepared by the impregnation and surfactant assisted impregnation methods are between 11.3-7.1 nm and 8.9-7.1 nm, respectievely. N2 physisorption analysis showed that catalysts prepared by the surfactant-assisted impregnation method had higher surface areas than the catalysts prepared by the classical impregnation method. It was observed that the surface area of the catalyst increased as the boiling point of the solvent increased. Scanning electron microscopy (SEM) analysis showed that particle size of the catalysts with propanol prepared by impregnation and surfactant assisted impregnation methods are 118 nm and 86 nm, respectievely. Surfactant caused to produce smaller particles. The CO methanation studies showed that highest CO conversion values were reached with Ni/SAPO34 catalyst using 1-propanol prepared by impregnation and surfactant assisted impregnation methods which gave 19.2% and 21.1% CO conversion to methane at 375C, respectievely The low methane formation rates showed that most of the CO component was adsorbed on the surface and some of it was converted to methane.
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SAPO-34负载镍催化剂上的CO甲烷化
以15% NiO掺杂的SAPO34分子筛为载体,研究了一氧化碳甲烷化反应。采用水热合成法制备SAPO34载体,采用不同溶剂(水、乙醇、丙酮和1-丙醇)浸渍和表面活性剂浸渍的方法向载体中加入氧化镍。采用多种表征技术(N2物理吸附、XRD、SEM、TEM、FTIR)对催化剂和载体的物理性质进行了表征。XRD分析表明,添加表面活性剂后,催化剂的平均晶粒尺寸减小。浸渍法和表面活性剂辅助浸渍法制备的催化剂平均晶粒尺寸分别为11.3 ~ 7.1 nm和8.9 ~ 7.1 nm。N2物理吸附分析表明,表面活性剂辅助浸渍法制备的催化剂比经典浸渍法制备的催化剂具有更高的比表面积。随着溶剂沸点的增加,催化剂的表面积也随之增加。扫描电镜(SEM)分析表明,采用浸渍法和表面活性剂辅助浸渍法制备的丙醇催化剂的粒径分别为118 nm和86 nm。表面活性剂导致产生较小的颗粒。CO甲烷化研究表明,以Ni/SAPO34为催化剂,采用浸渍法制备的1-丙醇和表面活性剂辅助浸渍法制备的Ni/SAPO34催化剂,在375℃下CO转化为甲烷的转化率分别为19.2%和21.1%,较低的甲烷生成率说明大部分CO组分被吸附在表面,部分转化为甲烷。
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来源期刊
gazi university journal of science
gazi university journal of science MULTIDISCIPLINARY SCIENCES-
CiteScore
1.60
自引率
11.10%
发文量
87
期刊介绍: The scope of the “Gazi University Journal of Science” comprises such as original research on all aspects of basic science, engineering and technology. Original research results, scientific reviews and short communication notes in various fields of science and technology are considered for publication. The publication language of the journal is English. Manuscripts previously published in another journal are not accepted. Manuscripts with a suitable balance of practice and theory are preferred. A review article is expected to give in-depth information and satisfying evaluation of a specific scientific or technologic subject, supported with an extensive list of sources. Short communication notes prepared by researchers who would like to share the first outcomes of their on-going, original research work are welcome.
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