CFD modeling for NO_x absorption accompanying with SO₂ in wet flue gas desulfurization scrubber based on gas-phase ozone oxidation.

Jiangyuan Qu; Nana Qi; Kai Zhang

NOx removal performance accompanying with SO2 is investigated in a two-step process containing O3 pre-oxidation of NO and NOx post-absorption in the scrubber of wet flue gas desulfurization (WFGD) unit. Based on Eulerian-Lagrangian framework, a comprehensive CFD model is established to describe the reactions of NO2 and N2O5 with S(IV) in droplets coupled with NOx transfer process and hydrodynamics in the scrubber. Taking the WFGD scrubber of 330 MW coal-fired power unit as case study, the results indicate NOx absorption efficiency in scrubber is increased by increasing O3/NO molar ratio from 1.0 to 2.2 and decreasing reaction temperature from 423 1< to 363 K in O3 pre-oxidation process. The obtained highest removal efficiency is 85.79% for pH of 5.5 or 96.32% for pH of 9.0 in droplets. NO2 absorption is much slower than N2O5 and more sensitive to chemical compositions in droplets or hydrodynamics in scrubber. The overall mass transfer coefficient (KG) for NO2 is mainly determined by pH and S(IV) concentration in droplets, while the specific interfacial area (α) is largely influenced by gas-droplet hydrodynamics in scrubber. Finally, a correlation is proposed to predict the volumetric mass transfer coefficient (KGα) for NO2 absorption accompanying with SO2 in WFGD scrubber.

FLUE gas desulfurization; MASS transfer coefficients; SCRUBBER (Chemical technology); OZONE; ABSORPTION; DESULFURIZATION

Process Safety & Environmental Protection: Transactions of the Institution of Chemical Engineers Part B, 2022, Vol 159, Issue Part B, p685

0957-5820

Academic Journal

10.1016/j.psep.2022.01.037