中国电机工程学报2026,Vol.46Issue(3):1123-1132,中插20,11.DOI:10.13334/j.0258-8013.pcsee.241900
钠盐对碳酸氢铵SNCR的低温增效性能
Synergistic Effect of Sodium Salts on Ammonium Bicarbonate Selective Non-catalytic Reduction at Low Temperature
摘要
Abstract
In response to the narrow temperature window and low denitration efficiency of the selective non-catalytic reduction(SNCR)technology at low temperatures,this paper investigates the characteristics of the ammonium bicarbonate denitration reaction and selects sodium salts as additives for denitration efficiency enhancement experiments in a tubular furnace.Based on the Chemkin-Pro software,the yield and sensitivity analysis of key free radicals are carried out,and the low-temperature enhancement mechanism of sodium carbonate and sodium acetate on the SNCR technology is explored with the experimental results.The results show that adding sodium salts at a low temperature of 750℃can improve denitration efficiency to varying degrees at different ammonia-to-nitrogen molar ratios(normalized stoichiometric ratio,NSR),and the reductant utilization reaches its peak at NSR=1.7.Adding 50 μmol/mol of Na2CO3 and CH3COONa to the reaction system at NSR of 1.7 reduces the lower limit of the denitration temperature window to 785 and 776℃,respectively,and the average low-temperature denitration rate increases from 12.5%to 42.57%and 44.25%,respectively.CH3COONa shows a more pronounced improvement in low-temperature denitration performance.Simulation analysis indicates that after adding CH3COONa,·NH2 and·OH radicals exhibit two"generation peaks,"with sodium and acetate ions jointly enhancing low-temperature SNCR efficiency.In contrast,Na2CO3 only strengthens the formation pathway of the intermediate radical NNH under the influence of sodium ions,thereby accelerating its reduction with NO;thus,its improvement on low-temperature denitration performance is less significant than that of CH3COONa.关键词
选择性非催化还原/脱硝效率/钠盐/低温/增效机理Key words
selective non-catalytic reduction/denitration efficiency/sodium salt/low temperature/synergistic mechanism分类
资源环境引用本文复制引用
刘泮霖,马素霞,罗晨..钠盐对碳酸氢铵SNCR的低温增效性能[J].中国电机工程学报,2026,46(3):1123-1132,中插20,11.基金项目
怀柔实验室项目(ZD2023008A) (ZD2023008A)
山西省科技重大专项(202201090301001).Huairou Laboratory Project(ZD2023008A) (202201090301001)
Major Science and Technology Project of Shanxi province(202201090301001). (202201090301001)
