This letter reports efficient treatment of NO emission with a transient, nonequilibrium plasma created by pulsed corona discharge. The transient plasma (≈50 ns) is found to reduce NO emission by 50 in a flow of 2-25 l/s with energy cost ≈10-20 eV/molecule, corresponding to a fraction of source power of ≈5. The efficiency of NO↓(x) reduction is a complex function of parameters that include pulse width, pulse polarity, current density, repetition rate, and reactor design. It was found that the best efficiencies are correlated with a low current density (0.2 A/cm↑(2))and high repetition rate (1 kHz) under high flow rate. Careful optimization of all these parameters is required to reach cost effective NO↓(x) reduction. # 1997 American Institute of Physics. S0003-6951 (97)00249-0
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