Application of pulsed corona induced plasma chemical process to an industrial incinerator

Abstract

Pulsed corona induced plasma chemical process (PPCP) has been investigated for the simultaneous removal of NO, (nitrogen oxides) and SO2 (sulfur dioxide) from the flue gas emission. It is one of the world's largest scales of PPCP for treating NOx and SO2 simultaneously. A PPCP unit equipped with an average 120 kW modulator has been installed and tested at an industrial incinerator with the gas flow rate of 42 000 m(3)/h. To improve the removal efficiency Of SO2 and NOx, ammonia (NH3) and propylene (C3H6) were used as chemical additives. It was observed that the pulsed corona induced plasma chemical process made significant NOx and SO2 conversion with reasonable electric power consumption. The ammonia injection was very effective in the enhancement Of SO2 removal. NO removal efficiency was significantly improved by injecting a CA additive. In the experiments, the removal efficiencies Of SO2 and NOx were approximately 99 and 70%, respectively. The specific energy consumption during the normal operation was approximately 1.4 Wh/m(3), and the nanopulse conversion efficiency of 64.3% was achieved with the pulsed corona induced plasma chemical process.