| ZSM-5/MgO质量比对复合催化剂物化性质及合成甲硫醇反应的影响 |
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| 引用本文: | 刘飘,刘飞,杨凯旭,曹建新.ZSM-5/MgO质量比对复合催化剂物化性质及合成甲硫醇反应的影响[J].石油学报(石油加工),2019,35(4):766-774. |
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| 作者姓名: | 刘飘 刘飞 杨凯旭 曹建新 |
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| 作者单位: | 1. 贵州大学 化学与化工学院, 贵州 贵阳 550025;
2. 贵州省绿色化工与清洁能源技术重点实验室,贵州 贵阳 550025;
3. 贵州省矿产资源高效利用与绿色化工技术特色重点实验室,550025 |
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| 基金项目: | 国家自然科学基金项目(21666007)、贵州省百层次创新型人才专项(黔科合平台人才([2016]5655)、贵州省科技创新人才团队(黔科合平台人才([2018]5607)、贵州省科技计划项目(黔科合平台人才([2017]5788) |
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| 摘 要: | 采用介孔碱性MgO对微孔酸性ZSM-5分子筛进行复合改性,利用液相沉淀包覆技术制备了ZSM-5/MgO复合催化剂,研究了ZSM-5与MgO质量比对复合催化剂物化性质和合成甲硫醇催化性能的影响。采用X射线衍射仪(XRD)、扫描电子显微镜(SEM)、比表面积及孔隙分析仪(BET)和化学吸附分析仪(CO2/NH3-TPD)等手段对不同复合催化剂的晶相组成、微观形貌、孔结构及表面酸碱性进行分析表征。结果表明:ZSM-5/MgO质量比对ZSM-5/MgO复合催化剂的物化性质和催化性能影响较大。过高或过低ZSM-5/MgO质量比制得复合催化剂中MgO结晶度都有所降低,且未形成包覆相结构;ZSM-5/MgO质量比为1/3时制得复合催化剂形成了均匀包覆相结构和微 介孔结构(总比表面积为162 m2/g,总孔体积0.46 cm3/g),同时具有酸碱特性;在反应压力1.0 MPa、反应温度370 ℃、H2S/CH3OH摩尔比2/1、N2流速80 mL/min、H2S流速4.9 mL/min反应条件下合成甲硫醇,复合催化剂表现出优越的催化性能、稳定性及寿命,CH3OH转化率、CH3SH选择性和CH3SH收率分别达到90.48%、90.04%和81.47%,催化剂寿命达到18 h。与单一ZSM-5分子筛相比,复合催化剂寿命延长了7 h,CH3SH收率提高了13.97百分点。
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| 关 键 词: | ZSM-5/MgO 复合催化剂 质量比 甲硫醇合成 催化性能 |
| 收稿时间: | 2018-05-14 |
Effects of Mass Ratio of ZSM-5/MgO on the Physicochemical Properties and Catalytic Performance in the Synthesis of Methanethiol |
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| LIU Piao,LIU Fei,YANG Kaixu,CAO Jianxin.Effects of Mass Ratio of ZSM-5/MgO on the Physicochemical Properties and Catalytic Performance in the Synthesis of Methanethiol[J].Acta Petrolei Sinica (Petroleum Processing Section),2019,35(4):766-774. |
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| Authors: | LIU Piao LIU Fei YANG Kaixu CAO Jianxin |
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| Affiliation: | 1. School of Chemistry and Chemical Engineering, Guizhou University, Guiyang 550025, China;
2. Guizhou Key Laboratory for Green Chemical and Clean Energy Technology, Guiyang 550025, China;
3. Guizhou Key Laboratory for Efficient Utilization of Mineral and Green Chemical Technology, Guiyang 550025, China |
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| Abstract: | ZSM 5/MgO composite catalysts were fabricated by using acidic microporous ZSM-5 molecular sieve and mesoporous alkaline MgO, based on liquid phase precipitation coating route. The effect of mass ratio of ZSM-5 to MgO on the physicochemical properties and their catalytic performance in the synthesis of methanethiol was investigated. These obtained composite catalysts were extensively characterized by the X-ray diffractometer (XRD), scanning electron microscope (SEM), specific surface area and pore analyzer (BET) and chemisorption analyzer (CO2/NH3-TPD) techniques to investigate their crystalline property, morphology, pore structure and surface acidity-basicity, respectively. Results indicate that various mass ratios of ZSM-5 to MgO pose significant impact on the physicochemical properties and their catalytic performance. The crystallinity and content of MgO in composite catalyst is greatly affected by the ZSM-5/MgO mass ratio. As ZSM-5/MgO mass ratio of 1/3, the homogeneously continuous coating phase and hierarchical structure (total specific surface area of 162 m2/g, the total pore volume of 0.46 cm3/g) with acidity and basicity are successfully obtained, which exhibits excellent catalytic performances, stability and reaction lifetime, with methanol conversion of 90.48%, methanethiol selectivity of 90.04%, methanethiol yield of 81.47%, and catalyst lifetime of 18 h under the conditions of reaction pressure of 1.0 MPa, reaction temperature of 370 ℃, H2S/CH3OH molar ratio of 2/1, nitrogen flow rate of 80 mL/min and hydrogen sulfide flow rate of 4.9 mL/min. Compared with ZSM-5 molecular sieve, the reaction lifetime of the composite catalyst is extended by 7 h and the yield of methanethiol is increased by 13.97 percentage. |
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| Keywords: | ZSM-5/MgO composite catalyst mass ratio methanethiol synthesis catalytic performance |
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