Yifan Han scite author profile

Nitrogen oxides (NO) and sulfur dioxide (SO) are major air pollutants, so simultaneously removing them from gases emitted during fossil fuel combustion in stationary systems is important. Wet denitrification using urea is used for a wide range of systems. Additives have strong effects on wet denitrification using urea, and different mechanisms are involved and different effects found using different additives. In this study, the effects of different additives, initial urea concentrations, reaction temperatures, initial pH values, gas flow rates, and reaction times on the simultaneous desulfurization and denitrification efficiencies achieved using wet denitrification using urea were studied in single factor experiment. The optimum reaction conditions for desulfurization and denitrification were found. Desulfurization and denitrification efficiencies of 97.5% and 96.3%, respectively, were achieved at a KMnO concentration 5 mmol/L, a reaction temperature of 70°C, initial urea solution pH 8, a urea concentration of 9%, and a gas flow rate of 40 L/h. The concentrations of the desulfurization and denitrification reaction products in the solution were determined. NO was mainly transformed into N, and the [Formula: see text] and [Formula: see text] concentrations in the solution became very low. The reactions involved in SO and NO removal using urea were analyzed from the thermodynamic viewpoint. Increasing the temperature was not conducive to the reactions but increased the rate constant, so an optimum temperature was determined. The simultaneous desulfurization and denitrification kinetics were calculated. The urea consumption and [Formula: see text], [Formula: see text], and [Formula: see text] generation reactions were all zero order. The [Formula: see text] generation rate was greater than the [Formula: see text] generation rate. The simultaneous desulfurization and denitrification process and mechanism were studied. The results provide reference data for performing flue gas desulfurization and denitrification in factories.

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Molecular dynamics simulation of droplet evaporation in a one-dimensional standing wave acoustic field

Liu

Han

Wang

et al. 2023

International Journal of Thermal Sciences

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Kelvin-Helmholtz Instability of a Confined Nano-Liquid Sheet With the Effects of Heat Andmass Transfer Andmarangoni Convection

Han

2022

Atomiz Spr

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Yifan Han

Influence of soil density on gas permeability and water retention in soils amended with in-house produced biochar

Simultaneous removal of SO₂ and NO_x from flue gas by wet scrubbing using a urea solution

Molecular dynamics simulation of droplet evaporation in a one-dimensional standing wave acoustic field

Kelvin-Helmholtz Instability of a Confined Nano-Liquid Sheet With the Effects of Heat Andmass Transfer Andmarangoni Convection

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Yifan Han

Influence of soil density on gas permeability and water retention in soils amended with in-house produced biochar

Simultaneous removal of SO2 and NOx from flue gas by wet scrubbing using a urea solution

Molecular dynamics simulation of droplet evaporation in a one-dimensional standing wave acoustic field

Kelvin-Helmholtz Instability of a Confined Nano-Liquid Sheet With the Effects of Heat Andmass Transfer Andmarangoni Convection

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Simultaneous removal of SO₂ and NO_x from flue gas by wet scrubbing using a urea solution