The effect of dispersant characteristics on the De-NOx efficiency of SCR catalyst

In the typical wet flue gas denitration technology using sulfite solutions, the rapid free radical chain reaction of SO 3•− oxidation by O 2 is the main reason for the significant consumption of absorbents and inefficient denitration. The study utilizes L-ascorbic acid (VC) to inhibit the free radical chain reaction. VC combined with SO 3•− to form stable compounds, which hindered the oxidation of SO 3•− to SO 5 •− by O 2 , leading to an 80.7 mol % decrease in Na 2 SO 3 consumption by adding millimolar-level VC. Compared to the sulfite solution, the best denitration efficiency of the VC/Na 2 SO 3 mixture solution increased from 94.4 to 99.2 vol %, and the absorption time for absorption efficiency above 90 vol % was extended from 7 to 72 min. Additionally, a macro absorption model describing the rates of macro absorption was established based on various operating conditions.

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Confirming the efficacy of a new arch-firing solution in safely strengthening low-NO_x combustion within a large-scale furnace: Impact of the flue gas recirculation position in burners

Liu,

Kuang,

Cheng

et al. 2024

Energy & Environment

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To address the persistently high NO x production and the heightened overheating risk in the hopper of a 600-MWe, deep-air-staging, arch-fired boiler furnace (i.e., the reference furnace), a solution was devised with a staged arch-firing framework (SAF) and flue gas recirculation (FGR). This required establishing an appropriate position for the burner-FGR and confirming the viability of the SAF for the furnace. Comprehensive industrial-scale physical tests and computer simulations were conducted using the reference furnace. Subsequently, the furnace with SAF was examined with FGR introduced sequentially, first using a fuel-rich mixture, then using an inner secondary-air flow, and finally using an outer secondary-air flow (i.e., denoted in turn as FGR-FR, FGR-IS, and FGR-OS). Given this FGR-location order, the FGR’s functions about combustion degradation and NO inhibition weakened, resulting in increased NO x emissions and continuously decreasing burnout loss. Considering the satisfactory burnout levels across all three configurations, the FGR-FR configuration demonstrated the best reduction in NO x emissions, achieving NO x output of about 600 mg/m3 (O2 = 6%) and an unburnt combustible rate in fly ash of about 5%. Comparing the conditions before and after implementing the SAF indicated that the SAF enhanced combustion intensity and improved the utilisation of overfire air and hopper air, resulting in a further 33.3% reduction in NO x emissions without compromising burnout efficiency. Additionally, the SAF effectively mitigated the overheating risk in the hopper by significantly lowering local temperature levels by 400 K.

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The effect of dispersant characteristics on the De-NOx efficiency of SCR catalyst

Cited by 5 publications

References 30 publications

Thermal regeneration characteristics of titanium isopropoxide-modified TiO2 for the removal of environmentally hazardous NOx in iron ore sintering process

Thermal regeneration characteristics of titanium isopropoxide-modified TiO2 for the removal of environmentally hazardous NOx in iron ore sintering process

Utilizing l-Ascorbic Acid to Inhibit Adverse Oxidation and Enhance Denitration Efficiency during Sulfite Solution Absorption of NO₂: Mechanism and Process Parameters

Confirming the efficacy of a new arch-firing solution in safely strengthening low-NO_x combustion within a large-scale furnace: Impact of the flue gas recirculation position in burners

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The effect of dispersant characteristics on the De-NOx efficiency of SCR catalyst

Cited by 5 publications

References 30 publications

Thermal regeneration characteristics of titanium isopropoxide-modified TiO2 for the removal of environmentally hazardous NOx in iron ore sintering process

Thermal regeneration characteristics of titanium isopropoxide-modified TiO2 for the removal of environmentally hazardous NOx in iron ore sintering process

Utilizing l-Ascorbic Acid to Inhibit Adverse Oxidation and Enhance Denitration Efficiency during Sulfite Solution Absorption of NO2: Mechanism and Process Parameters

Confirming the efficacy of a new arch-firing solution in safely strengthening low-NOx combustion within a large-scale furnace: Impact of the flue gas recirculation position in burners

Contact Info

Product

Resources

About

Utilizing l-Ascorbic Acid to Inhibit Adverse Oxidation and Enhance Denitration Efficiency during Sulfite Solution Absorption of NO₂: Mechanism and Process Parameters

Confirming the efficacy of a new arch-firing solution in safely strengthening low-NO_x combustion within a large-scale furnace: Impact of the flue gas recirculation position in burners