Download PDFOpen PDF in browserProcessing of COx Molecules in CO2/O2 Gas Mixture by Dielectric Barrier Discharge: Understanding the Effect of Internal Parameters of the DischargeEasyChair Preprint 25556 pages•Date: February 5, 2020AbstractEnvironmental pollution has become a major issue due to the rapid growth of industrial and technological developments that requires a high consumption of fossil energy. A new route of treatment of pollutant molecules based on the use of reactive plasmas out of thermodynamic equilibrium generated by electrical discharges at atmospheric pressure to neutralize or transform toxic oxides as CO2[1-5]. This type of non-equilibrium reactive plasma can be used for the decontamination of gaseous effluents and is generally generated by a pulsed discharge which constitutes a chemically very active medium of low energy consumption. Our work will be based on a zero-dimensional model, to study the reduction of COx in the CO2 / O2 gas mixture by dielectric barrier discharge of non-equilibrium plasma under typical operating conditions of the discharge. First, we developed a kinetic model based on a set of chemical reactions that takes into account charged particles, neutral particles and excited particles grouped together in one of several processes involved 113 reactions involving 21 atomic and molecular species in different states (neutral, excited or ionized). Modeling this model allows to calculate the temporal evolutions of electrical and chemical characteristics. The influence of certain discharge parameters such as the applied electric voltage, the gas pressure, the capacity of the dielectric, the discharge frequency and the concentration of oxygen in the gaseous mixture on the density variations of CO and CO2 compared to the initial density of CO2 in the gas mixture of the discharge have been analyzed. Keyphrases: CO2 /O2 gas mixture, Carbon dioxide conversion, Cox, carbon monoxide ratio, chemical kinetics, depollution, numerical modeling, pulsed DBD discharge
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