Sustainability Assessment of the Utilization of CO2 in a Dielectric Barrier Discharge Reactor Powered by Photovoltaic Energy
Author
Other authors
Publication date
2022-09ISSN
2227-9717
Abstract
The direct activation of diluted CO2 in argon was studied in a co-axial dielectric barrier discharge (DBD) reactor powered by photovoltaic energy. The influence of the initial CO2 and argon concentration on the CO2 decomposition to form CO was investigated using a copper-based catalyst in the discharge zone. It was observed that the CO2 conversion was higher at lower CO2 concentrations. The presence of the diluent gas (argon) was also studied and it was observed how it has a high influence on the decomposition of CO2, improving the conversion at high argon concentrations. At the highest observed energy efficiency (1.7%), the CO2 conversion obtained was 40.2%. It was observed that a way to enhance the sustainability of the process was to use photovoltaic energy. Taking into account a life cycle assessment approach (LCA), it was estimated that within the best-case scenario, it would be feasible to counterbalance 97% of the CO2 emissions related to the process.
Document Type
Article
Document version
Published version
Language
English
Subject (CDU)
54 - Chemistry. Crystallography. Mineralogy
62 - Engineering. Technology in general
Keywords
Non-thermal plasma
CO2 conversion
DBD
Carbon capture and utilization (CCU)
Anhídrid carbònic
Emmagatzematge de diòxid de carboni
Pages
p.11
Publisher
MDPI
Is part of
Processes 2022, 10(9), 1851
This item appears in the following Collection(s)
Rights
© L'autor/a
Except where otherwise noted, this item's license is described as http://creativecommons.org/licenses/by/4.0/