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首页> 外文期刊>Plasma Sources Science & Technology >The importance of thermal dissociation in CO2 microwave discharges investigated by power pulsing and rotational Raman scattering
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The importance of thermal dissociation in CO2 microwave discharges investigated by power pulsing and rotational Raman scattering

机译:通过功率脉冲和旋转拉曼散射研究了CO2微波排出中热解离的重要性

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摘要

The input power of a CO_2 microwave plasma is modulated at kHz rate in scans of duty cycle at constant average power to investigate gas heating dynamics and its relation to dissociation efficiency. Rotational temperature profiles obtained from rotational Raman scattering reveal peak temperatures of up to 3000K, while the edge temperature remains cold (500K). During the plasma ‘OFF'-period, the gas cools down convectively, but remains overall too hot to allow for strong overpopulation of vibrational modes (2200K in the core). Fast optical imaging monitors plasma volume variations and shows that power density scales with peak power. As dissociation scales with observed peak rotational temperature, it is concluded that thermal processes dominate. A simple 0D model is constructed which explains how higher power density favors dissociation over radial energy transport. Thermal decomposition is reviewed in relation to quenching oxygen radicals with vibrationally excited CO_2, to reflect on earlier reported record efficiencies of 90%.
机译:CO_2微波等离子体的输入功率以恒定的循环扫描的扫描速率以恒定的平均功率调制,以研究气体加热动力学及其与解离效率的关系。从旋转拉曼散射获得的旋转温度曲线显示高达3000K的峰值温度,而边缘温度保持冷(500K)。在等离子体的偏离期间,气体对准地冷却,但仍然太热,以允许强大的振动模式(核心2200k)。快速光学成像监测等离子体体积变化,并显示电力密度具有峰值功率的尺度。作为具有观察到峰值旋转温度的解离刻度,得出结论,热处理占据主导地位。构建一个简单的0d模型,解释了更高的功率密度有利于对径向能量传输的解离。综述热分解与振动激发CO_2淬火氧自由基,以反映先前报告的90%效率。

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    D C M van den Bekerom; J M Palomares Linares; T Verreycken; E M van Veldhuizen; S Nijdam; G Berden; W A Bongers; M C M van de Sanden; G J van Rooij;

  • 作者单位

    DIFFER - Dutch Institute for Fundamental Energy Research De Zaale 20 5612AJ Eindhoven The Netherlands;

    DIFFER - Dutch Institute for Fundamental Energy Research De Zaale 20 5612AJ Eindhoven The Netherlands;

    DIFFER - Dutch Institute for Fundamental Energy Research De Zaale 20 5612AJ Eindhoven The Netherlands;

    Eindhoven University of Technology Department of Applied Physics Elementary Processes in Gases Discharges group PO Box 513 5600MB Eindhoven The Netherlands;

    Eindhoven University of Technology Department of Applied Physics Elementary Processes in Gases Discharges group PO Box 513 5600MB Eindhoven The Netherlands;

    FELIX Laboratory Institute for Molecules and Materials Radboud University Toernooiveld 7 6525 ED Nijmegen The Netherlands;

    DIFFER - Dutch Institute for Fundamental Energy Research De Zaale 20 5612AJ Eindhoven The Netherlands;

    DIFFER - Dutch Institute for Fundamental Energy Research De Zaale 20 5612AJ Eindhoven The Netherlands;

    DIFFER - Dutch Institute for Fundamental Energy Research De Zaale 20 5612AJ Eindhoven The Netherlands;

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  • 正文语种 eng
  • 中图分类 等离子体物理学;
  • 关键词

    carbon dioxide; microwave plasma; rotational Raman; vibrational excitation non-equilibrium; gas conversion;

    机译:二氧化碳;微波等离子体;旋转拉曼;振动激发非平衡;天然气转换;

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