Enhancing CO2 conversion in a temperature-controlled DBD plasma reactor with HKUST-1 catalyst: Water removal and CuO/Cu2O-derived approach

IF 6 Q1 ENGINEERING, MULTIDISCIPLINARY Results in Engineering Pub Date : 2024-09-14 DOI:10.1016/j.rineng.2024.102884
Hadi Hatami , Mohammadreza Khani , Babak Shokri
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Abstract

Due to a synergy effect, using dielectric barrier discharge (DBD) plasma technology combined with catalysts for CO2 decomposition, a major contributor to global warming, is recognized as an effective approach to transforming CO2 into valuable products such as CO, which is a crucial feedstock for chemical synthesis. Herein, HKUST-1 was synthesized using the hydrothermal method for CO2 conversion in the DBD reactor. To enhance catalyst performance in the plasma region, HKUST-1 was treated with O2 plasma to increase its specific surface area. Additionally, HKUST-1 was calcined at 300 °C to produce the CuO/Cu2O catalyst. Since the recombination reaction in the CO2 conversion is increased at higher temperatures, the reactor heat is removed using fan cooling and a water circulation system. In the presence of the HKUST-1 catalyst, the CO2 conversion rate significantly increased by 132 %, 82 %, and 12 % in reactors operating without cooling, with fan cooling, and with water cooling circulation, respectively compared to the reactors without catalyst, at a flow rate of 50 ml/min and maximum input power. The catalysts have been characterized using a comprehensive suite of analytical techniques, including FTIR, XRD,TEM, SEM, EDS, and BET analysis. The BET analysis indicates that the specific surface area of HKUST-1 after O2 plasma treatment is increased by 52 %, which causes an increasing conversion rate of up to 18 %. The CuO/Cu2O catalyst demonstrated maximum CO2 conversion of 21 % at an input power of 140 W and achieved energy efficiency of 8.6 % at 40 W. The presence of oxygen vacancies within this catalyst enhances the process of CO2 decomposition.

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使用 HKUST-1 催化剂提高温控 DBD 等离子反应器中的二氧化碳转化率:脱水和 CuO/Cu2O 衍生方法
由于协同效应,使用介质阻挡放电(DBD)等离子体技术与催化剂结合进行二氧化碳分解(导致全球变暖的主要因素)被认为是将二氧化碳转化为有价值产品(如作为化学合成重要原料的一氧化碳)的有效方法。本文采用水热法合成了 HKUST-1,用于在 DBD 反应器中进行二氧化碳转化。为了提高等离子体区域的催化剂性能,HKUST-1 经过了 O2 等离子体处理,以增加其比表面积。此外,HKUST-1 经 300 °C 煅烧后生成 CuO/Cu2O 催化剂。由于二氧化碳转化过程中的重组反应在较高温度下会加剧,因此使用风扇冷却和水循环系统去除反应器的热量。与不使用催化剂的反应器相比,在 50 毫升/分钟的流量和最大输入功率条件下,使用 HKUST-1 催化剂的反应器在无冷却、风扇冷却和水冷循环条件下的二氧化碳转化率分别显著提高了 132%、82% 和 12%。催化剂的表征采用了一整套分析技术,包括傅立叶变换红外光谱、XRD、TEM、SEM、EDS 和 BET 分析。BET 分析表明,经过 O2 等离子处理后,HKUST-1 的比表面积增加了 52%,从而使转化率提高了 18%。在输入功率为 140 W 时,CuO/Cu2O 催化剂的二氧化碳最大转化率为 21%,在输入功率为 40 W 时,能量效率为 8.6%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Results in Engineering
Results in Engineering Engineering-Engineering (all)
CiteScore
5.80
自引率
34.00%
发文量
441
审稿时长
47 days
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