Experimental study of the removal NOx and SO2 from flue gas using the O3/H2O2, and O3/UV processes

The study investigates the effect of different parameters for the removal of SO2 and NOx through a wet process concurrently. Two separate processes have been compared for the removal of flue gases, that is, Ozone/UV and H2O2/UV. The research aims to develop a comparative study for the removal of SO2 and NOx simultaneously using Ozone/H2O2 and UV light and find the energy consumption (also known as E-EO) for each process. Combining UV with O-3 and H2O2 play a crucial role in generating hydroxyl radicals. Different combinations of Ozone/H2O2, flue gas, and UV intensity were studied at different pH and temperatures of the solution to achieve maximum removal of the flue gases. For, the ozonation process it was observed that the removal% of flue gases increases with increasing UV intensity, and at higher UV intensity (250 W), the removal% for NOx is 92% and SO2 is 95% simultaneously at optimum temperature 308 K. For H2O2/UV process (250 W UV intensity), removal% for NOx is 95% and SO2 is 100% at 313 K, 0.3 LPM flow rate of flue gases. The E-EO values obtained for both processes were less than 1 for 95% NOx/SO2 removal efficiency.

Automated summary

This study investigates the effect of different parameters on the simultaneous removal of SO2 and NOx through a wet process. Two different methods, ozone/UV and H2O2/UV, are compared for the removal of flue gases. The combination of UV with O-3 and H2O2 plays a crucial role in generating hydroxyl radicals, leading to the maximum removal of flue gases.