使用 InCeZrOX/H-ZSM-5-Si 双功能催化剂将二氧化碳转化为轻烯烃

IF 3.8 3区 工程技术 Q2 ENGINEERING, CHEMICAL Industrial & Engineering Chemistry Research Pub Date : 2024-07-10 DOI:10.1021/acs.iecr.4c01132
Zheng Yuan, Xia Lv, Muhammad Irfan, Guofeng Zhao, Jichang Liu, Haitao Xu
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引用次数: 0

摘要

利用绿色氢气将二氧化碳(CO2)转化为轻烯烃(C2=-C4=)是减少二氧化碳排放和获得有价值化学品的理想策略。虽然基于 ZSM-5 的双功能催化剂具有独特的特性,使其适用于各种工艺,但很少用于将 CO2 转化为 C2=-C4=。 本文制备了一种 In0.9Ce1Zr4OX/H-ZSM-5-Si 双功能催化剂,该催化剂由 In0.9Ce1Zr4OX 和正硅酸四乙酯(TEOS)钝化的 H-ZSM-5-Si 组成,用于将 CO2 转化为轻质烯烃。In0.9Ce1Zr4OX/H-ZSM-5-Si 上的 CO2 对碳氢化合物中 C2=-C4= 的选择性为 60.3%,对 CH4 的选择性为 5.9%,对 C5+ 的选择性为 17.2%。总产物中 CO 的选择性为 63.6%。In 和 Ce 的掺杂增加了表面氧空位的浓度,从而增强了对 CO2 和 H2 的吸附。TEOS 对 H-ZSM-5-Si 的钝化可有效降低其酸度,促进 C2=-C4= 的生成。
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CO2 Conversion into Light Olefins Using an InCeZrOX/H-ZSM-5-Si Bifunctional Catalyst
Carbon dioxide (CO2) conversion into light olefins (C2=–C4=) using green hydrogen is a desirable strategy to reduce CO2 emissions and obtain valuable chemicals. Although ZSM-5-based bifunctional catalysts exhibit unique characteristics that render them suitable for various processes, they are rarely used for CO2 conversion into C2=–C4=. Herein, an In0.9Ce1Zr4OX/H-ZSM-5-Si bifunctional catalyst composed of In0.9Ce1Zr4OX and tetraethyl orthosilicate (TEOS)-passivated H-ZSM-5-Si was prepared for CO2 conversion into light olefins. CO2 on In0.9Ce1Zr4OX/H-ZSM-5-Si exhibits a selectivity of 60.3% for C2=–C4=, 5.9% for CH4, and 17.2% for C5+ in hydrocarbons. The CO selectivity in the total products is 63.6%. The doping of In and Ce increases the concentration of surface oxygen vacancies, thereby enhancing the adsorption of CO2 and H2. The passivation of H-ZSM-5-Si by TEOS effectively reduces its acidity, promoting the generation of C2=–C4=.
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来源期刊
Industrial & Engineering Chemistry Research
Industrial & Engineering Chemistry Research 工程技术-工程:化工
CiteScore
7.40
自引率
7.10%
发文量
1467
审稿时长
2.8 months
期刊介绍: ndustrial & Engineering Chemistry, with variations in title and format, has been published since 1909 by the American Chemical Society. Industrial & Engineering Chemistry Research is a weekly publication that reports industrial and academic research in the broad fields of applied chemistry and chemical engineering with special focus on fundamentals, processes, and products.
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