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The influence of back-breakdown on the CO <sub>2</sub> conversion in gliding arc plasma: based on experiments of different materials and improved structures

Hao Sun, Zhuolei Chen, Jiefu Chen, Hu Long, Yi Wu, Wenliang Zhou

2021Journal of Physics D Applied Physics11 citationsDOI

Abstract

Abstract In this work, we studied the influence of electrode materials and airflow area on CO 2 conversion in gliding arc plasma. Herein, the correlation between breakdown events, including back-breakdown and re-ignition, and conversion rate was discussed. The experimental results show that the motion characteristics of the gliding arc when using different electrode materials affect the CO 2 conversion, especially the energy efficiency. Thereinto, the graphite material has the best performance. The correlation coefficient between breakdown events and the conversion rate reaches 0.85 at 4 l min −1 . Furthermore, the experiment of changing the airflow area verifies this value. Changing the airflow area increases the proportion of gas passing through the gliding arc, which can improve the CO 2 conversion, especially at low flow rate. When the flow rate is 3 l min −1 , the conversion rate reaches 11.1%, which is much higher than the conversion rate before improvement.

Topics & Concepts

Arc (geometry)PlasmaMaterials sciencePlasma arc weldingPhysicsMathematicsGeometryNuclear physicsPlasma Applications and DiagnosticsCatalytic Processes in Materials SciencePlasma Diagnostics and Applications
The influence of back-breakdown on the CO <sub>2</sub> conversion in gliding arc plasma: based on experiments of different materials and improved structures | Litcius