于锦禄,黄丹青,王思博,于庆灏,程行远,蒋陆昀,何立明.等离子体点火与助燃技术在航空发动机上的应用[J].航空发动机,2018,44(3):12-20
等离子体点火与助燃技术在航空发动机上的应用
Application of Plasma Ignition and Assisted Combustion of Aeroengine
  
DOI:
中文关键词:  等离子体  点火助燃  射流点火  航空发动机
英文关键词:Plasma  Ignition and assisted combustion  The jet assisted  Aero-engine
基金项目:国家自然科学基金(91746112,51776223)、陕西省自然科学研究计划(2017JM5093)资助
作者单位E-mail
于锦禄,黄丹青,王思博,于庆灏,程行远,蒋陆昀,何立明 空军工程大学航空航天工程学院西安710038 yujinlu1@163.com 
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中文摘要:
      等离子体点火与助燃技术是能源与动力领域的研究前沿。介绍了等离子体点火与助燃技术的研究背景和意义,分析了 其基本原理,给出了常见的等离子体点火与助燃的类型,阐述了等离子体通过热强化、动力学强化与输运强化3 种强化燃烧机制, 利于点火助燃。针对国内外等离子体点火与助燃技术在航空发动机上的研究现状,提出了预燃式等离子体射流点火和旋转滑动弧 助燃2 种新型等离子体点火助燃方案,对等离子体点火与助燃技术在航空发动机上的实际应用进行了展望
英文摘要:
      Plasma ignition and assisted combustion technology is the frontier of energy power research field. The research background and significance of plasma ignition and assisted combustion were introduced. The basic principle of plasma ignition and assisted combustion was analyzed. The common type of plasma ignition and assisted combustion are introduced. Then three mechanisms of plasma ignition and assisted combustion are expatiated, which are thermal enhancement, dynamic enhancement and transport enhancement. Moreover, aiming at plasma ignition and assisted combustion using on aero-engine related research at home and abroad, two kinds of new type plasma ignition and assisted combustion solution are put forward. Finally, plasma ignition and assisted combustion application in aero-engine is discussed
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