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Energy efficiency of N<sub>2</sub> vibrational excitation in the spark-and-glow phases of a long-pulse air discharge at atmospheric pressure

Jun‐Jie Qiao, Qi Yang, Da‐Zhi Wang, Qing Xiong

2023Plasma Sources Science and Technology13 citationsDOIOpen Access PDF

Abstract

Abstract The vibrational excitation of N 2 molecules has a significant impact on plasma chemical synthesis, including nitrogen fixation and ammonia formation, by reducing the energy barrier of chemical reactions. However, experimental data for energy efficiency of N 2 vibrational excitation is very rare. In this work, vibrational coherent anti-Stokes Raman scattering was applied to a 200 μ s long-pulse air plasma, and the time behaviours of rotational and vibrational temperatures of N 2 in two different discharge modes, namely the spark and glow modes in the long discharge pulse, were quantified. It reveals that the spark discharge produced a vibrational temperature exceeding 5000 K but with a gas temperature as low as 400 K, while the glow discharge resulted in efficient gas heating with a gas temperature as high as 3500 K and a vibrational temperature higher than 5000 K. Combined with the 0D simulation of the air plasma, it demonstrates that the energy efficiency of N 2 vibrational excitation in the glow phase is about three times higher than that of the spark phase. These results provide essential inspiration for further studies of plasma chemical synthesis dominated by N 2 vibrational excitation.

Topics & Concepts

Vibrational temperatureExcitationAtomic physicsGlow dischargeChemistryPlasmaRaman scatteringAtmospheric pressureVibrational energy relaxationAnalytical Chemistry (journal)Raman spectroscopyExcited stateOpticsOceanographyGeologyEngineeringQuantum mechanicsChromatographyElectrical engineeringPhysicsPlasma Applications and DiagnosticsPlasma Diagnostics and ApplicationsMass Spectrometry Techniques and Applications
Energy efficiency of N<sub>2</sub> vibrational excitation in the spark-and-glow phases of a long-pulse air discharge at atmospheric pressure | Litcius