Modification of TNF@UiO-66 composite by amine functionalized (TEPA) to improve photoconversion of CO2 using visible light: Investigation of intrinsic kinetic study and optimization

IF 7.2 2区工程技术 Q1 CHEMISTRY, MULTIDISCIPLINARY

Journal of CO2 Utilization Pub Date : 2024-07-01 DOI:10.1016/j.jcou.2024.102856

Solmaz Rajabi-Firoozabadi, Mohammad Reza Khosravi-Nikou, Ahmad Shariati

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引用次数: 0

Abstract

In this work, 25 % weight percentages of UiO-66 in TiO₂ nanoflower composite was treated with varying quantities of Tetraethylenepentamine (TEPA) to improve photoconversion of CO₂ into fuel using visible light (VL). The results revealed that maximum production rates of CH₄ and CH₃OH on TNF@25 %U-TEPA(2) sample were 64.59 and 2.47 µmol g_cat⁻¹ h⁻¹, respectively, at the optimum conditions of V-LP=150 W, P_CO2 =73 KPa, P_H2O =15 KPa and T=332.15 K. 15 LHHW models were evaluated based on different assumptions of rate determining step and the most abundant surface intermediate to obtain kinetics of the CO₂ photoconversion. The chosen model was the one that was closest to the experimental data. Furthermore, the kinetic rate and adsorption coefficients at T= 298.15–338.15 K and V-LP=150 W were obtained for the best-selected model. Finally, at T= 298.15–338.15 K, the activity energy of the produced CH₄ was determined as 3.6 kJ mol⁻¹.

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用胺官能化（TEPA）改性 TNF@UiO-66 复合材料以提高可见光对 CO2 的光转化率：内在动力学研究与优化

在这项工作中，用不同数量的四乙烯五胺（TEPA）处理了二氧化钛纳米花复合材料中 25% 重量百分比的 UiO-66，以提高利用可见光（VL）将 CO2 光转化为燃料的能力。结果表明，在 V-LP=150 W、PCO2 =73 KPa、PH2O =15 KPa 和 T=332.15 K 的最佳条件下，TNF@25 %U-TEPA(2) 样品上 CH4 和 CH3OH 的最大生产率分别为 64.59 和 2.47 µmol gcat-1 h-1。根据速率决定步骤和最丰富的表面中间产物的不同假设，对 15 个 LHHW 模型进行了评估，以获得 CO2 光转化的动力学。所选模型与实验数据最为接近。此外，在 T= 298.15-338.15 K 和 V-LP=150 W 条件下，最佳选定模型还获得了动力学速率和吸附系数。最后，在 T= 298.15-338.15 K 时，产生的 CH4 的活性能被确定为 3.6 kJ mol-1。

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来源期刊

Journal of CO2 Utilization CHEMISTRY, MULTIDISCIPLINARY-ENGINEERING, CHEMICAL

CiteScore

13.90

自引率

10.40%

发文量

406

审稿时长

2.8 months

期刊介绍： The Journal of CO2 Utilization offers a single, multi-disciplinary, scholarly platform for the exchange of novel research in the field of CO2 re-use for scientists and engineers in chemicals, fuels and materials. The emphasis is on the dissemination of leading-edge research from basic science to the development of new processes, technologies and applications. The Journal of CO2 Utilization publishes original peer-reviewed research papers, reviews, and short communications, including experimental and theoretical work, and analytical models and simulations.