Removal of SO2 from gas streams using a dielectric barrier discharge and combined plasma photolysis

Abstract

The removal of SO₂ from simulated gas streams (N₂/O₂/H₂O/SO₂) is experimentally investigated using a dielectric barrier discharge, and by computer modeling. Conversion of SO₂ to primarily H₂SO₄ is found to be limited by the generation of OH radicals. Increasing the concentrations of O₂ and H₂O increases the generation of OH radicals and results in more removal of SO₂ from gas streams. Removal efficiencies of ≳80% were experimentally achieved. Results from the model suggest that more efficient removal is obtained with a series of short, high E/N current pulses rather than a single, low E/N current pulse. Results from the model also suggest that uv illumination of the plasma to photolyze O₃ will improve the removal of SO₂ from the gas stream. Photolysis of O₃ produces O(¹D) atoms which generate OH radicals by H abstraction from H₂O, thereby increasing the removal of SO₂.