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CO<sub>2</sub> conversion in a microwave plasma torch: 2D vs 1D approaches

Natalia Yu. Babaeva, G V Naĭdis, Д. В. Терешонок, Timofey Chernyshev, L S Volkov, M. M. Vasiliev, О. Ф. Петров

2023Plasma Sources Science and Technology10 citationsDOIOpen Access PDF

Abstract

Abstract In the present study, we computationally investigate the splitting of CO 2 to carbon monoxide and oxygen in an atmospheric pressure microwave (MW) plasma torch. We demonstrate different stages of CO 2 conversion while using 2D and 1D models. For both models, we use identical sets of chemical reactions, cross sections, power profiles and dimensions of the plasma region. Based on the real MW plasma torch device, we first constructed two-dimensional geometry and obtained results using the 2D model. Then, the 1D plug-flow model was employed. With 1D model we expected to obtain the results close to those we already had from the 2D approach. However, we revealed that the gas temperature and plasma species behaviour in 1D model was quite different from those obtained with the 2D code. We revisited the 2D results and found that the reverse (upstream) gas flow near the central electrode was responsible for the observed discrepancies. In 2D model, the residence time of a certain portion of gas was much longer. When the flow rate in 1D model was adjusted, the reasonable agreement between both models was achieved.

Topics & Concepts

TorchPlasmaMicrowaveCarbon monoxidePlasma torchVolumetric flow rateChemistryFlow (mathematics)Residence time (fluid dynamics)Atmospheric pressureAnalytical Chemistry (journal)OxygenElectrodeMethaneAtomic physicsComputational physicsMechanicsMaterials sciencePhysicsPhysical chemistryMeteorologyNuclear physicsEngineeringQuantum mechanicsGeotechnical engineeringOrganic chemistryChromatographyMetallurgyBiochemistryCatalysisWeldingPlasma Applications and DiagnosticsPlasma Diagnostics and ApplicationsAmmonia Synthesis and Nitrogen Reduction
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