Computational Simulation on Nano-second Pulsed Discharge in Air-fuel Mixture for Plasma Assisted Combustion

Abstract

The compression ignition mechanism of PRF90/air mixture assisted by a non-equilibrium plasma has been clarified by 0-dimensional computational simulation. In a compression ignition process of fuel-air mixture, the heat release rate shows three peaks. The primary peak is caused by O radical generation from a thermal dissociation reaction of O₃. With increase of input energy density, gas temperature linearly elevates. While mole fraction of NO_x exponentially rises, O₃ shows maximum value at 4.0 mJ/cm³ and then gradually decreases due to thermal dissociation.