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Experimental study of the effect of electrode geometry on the ignition and flame development of NH3/air mixtures in nanosecond plasma discharges

Jie Tian, Huichao Jing, Yong Xiong, Lu Wang, Yongqi Wang, Qingwu Zhao, Yong Cheng

2026Combustion and Flame16 citationsDOI

Topics & Concepts

ElectrodeNanosecondIgnition systemMaterials scienceCoaxialAnalytical Chemistry (journal)CombustionPremixed flameChemistryComposite materialAtmospheric pressureMinimum ignition energyBar (unit)Adiabatic flame temperatureDielectricExtinction (optical mineralogy)Jet (fluid)Flame structureDielectric barrier dischargeWork (physics)Palladium-hydrogen electrodeReversible hydrogen electrodeRange (aeronautics)MechanicsFlame speedAbsolute electrode potentialWorking electrodeNozzleStandard hydrogen electrodePlasma Applications and DiagnosticsCombustion and flame dynamicsPlasma and Flow Control in Aerodynamics
Experimental study of the effect of electrode geometry on the ignition and flame development of NH3/air mixtures in nanosecond plasma discharges | Litcius