期刊
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
卷 61, 期 30, 页码 10756-10765出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.iecr.2c01331
关键词
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资金
- Research and Technology Institute (RTI) of PTT Public Company Limited, Thailand [DE- 0000679]
- Advanced Research Projects Agency-Energy (ARPA-E) under the US Department of Energy
This study introduces a novel CO2 reduction process using low energy non-thermal electric discharges at the microscale. The process does not rely on limited lifetime catalysts or consumable chemicals and can operate continuously for long periods at atmospheric pressure and temperature. High energy efficiencies and CO2 conversion rates can be achieved in the active volume.
The simple, robust, and energy-efficient reduction of CO2 to useful products is a significant goal of modern chemistry and chemical engineering. In this study, a novel CO2 reduction process was introduced by employing multiple low energy non-thermal electric glow discharges at the microscale. The process is neither dependent on limited lifetime catalysts nor consumable chemicals, enabling continuous operation over long periods, and operates at atmospheric pressure and temperature, thus simplifying process implementation. The influence of three parameters on the conversion of CO2 within the active volume and energy efficiency was studied, namely, the relative operational regimes on the V-I curve, the residence time of the reactant gas mixture in the plasma region, and the CO2 to water vapor molar ratio. High energy efficiencies of 80-95% and a CO2 conversion of 70-80% can be achieved in the active volume. A mathematical model reflecting geometry and flow conditions inside the microreactor was developed to simulate the chemical reaction process. Through an optimization process, the mathematical model parameters were determined to fit the experimental data and predict primary reaction constants for CO2 reduction.
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