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携带流反应器上混合过程对添加H_2的选择性非催化还原影响研究 被引量:2

Influence of Mixing on the Selective Non-catalytic Reduction Process With H_2 Addition in Entrained Flow Reactor
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摘要 采用柱塞流反应器(plug flow reactor,PFR)模型和Zwietering反应器模型对携带流反应器(entrained flow reactor,EFR)上添加H2的选择性非催化还原(selective non-catalytic reduction,SNCR)反应进行反应动力学计算分析。实验和计算结果表明:采用Miller98机制和Zwietering反应器模型可以较好地描述混合过程对添加H2的SNCR脱硝过程的影响。反应温度低于725℃时,化学反应速率低,反应主要受化学反应速率的控制,混合过程对NO还原反应影响很小。而温度高于725℃时,混合过程对NO还原的影响明显。反应产率分析表明,混合过程对添加H2的SNCR过程影响,主要以反应NH3+H=NH2+H2的途径使NH2活性基团减少,降低了脱硝效率。 The impact of H2 on the selective non-catalytic reduction (SNCR) reactions in an entrained flow reactor (EFR) was modeled with the plug flow reactor (PFR) and Zwietering models. A detailed kinetic reaction mechanism was used in this work. The simulation results and experimental results show that: the effect of mixing process on SNCR process with H2 addition can be depicted well by the Zwietering model integrated with the Miller98 kinetic mechanism. Below 725℃, the reaction rate is lower and the SNCR process is mainly controlled by chemistry, and the mixing process hardly has any effects on the SNCR process. Above 725℃, the reaction rate increase, and the SNCR process is limited by the mixing process. After a mechanical analysis of the H2 additive, it is concluded that the mixing process strengthens the NH3+H=NH2+H2 reaction; while reducing the important middle radicals (NH2), which reduces the efficiency of SNCR.
作者 刘辉 苏俊玮 石岩 杨运超 朱舒扬 吴少华
机构地区 哈尔滨工业大学能源科学与工程学院
出处 《中国电机工程学报》 EI CSCD 北大核心 2011年第14期38-43,共6页 Proceedings of the CSEE
关键词 混合 选择性非催化还原 H2 脱硝 反应动力学 mixing selective non-catalytic reduction(SNCR) H2 DeNOx reaction kinetic
分类号 X511 [环境科学与工程—环境工程]
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参考文献20

  • 1吕洪坤,杨卫娟,周志军,黄镇宇,刘建忠,周俊虎,岑可法.选择性非催化还原法在电站锅炉上的应用[J].中国电机工程学报,2008,28(23):14-19. 被引量:40
  • 2朱江涛,王晓晖,田正斌,阙勇明.SNCR脱硝技术在大型煤粉炉中应用探讨[J].能源研究与信息,2006,22(1):18-21. 被引量:47
  • 3Glarborg P, Dam-Johansen K, Miller JA, et al. Modeling the thermal DeNOx process in flow reactors: surface effects and nitrous oxide formation[J]. International Journal of Chemical Kinetics, 1994,26(4): 421-436. 被引量:1
  • 4Wenli D, Dam-Johansen K, Ostergaard K. Widening the temperature range of the thermal DeNOx process: an experimental investigation [C]//23th Symposium(International)on Combustion, Pittsburgh, 1990: 297-303. 被引量:1
  • 5沈伯雄,刘亭,韩永富.选择性非催化还原脱除氮氧化物的影响因素分析[J].中国电机工程学报,2008,28(23):53-59. 被引量:43
  • 6JOdal M, Nielsen C, Hulgaard T, et al. Pilot-scale experiments with ammonia and urea as reductants in selective non-catalytic reduction of nitric oxide[C]//Proceeclings of the 23rd International Symposium on Combustion, Pittsburgh, 1990: 237-243. 被引量:1
  • 7Winter F, Magor W, Hofbauer H, et al. NO and N2O formation and destruction in biomass grate combustors : a comprehensive study-practical implications[C]//Proceedings of the Fifth International Conference on Technologies and Combustion for a Clean Environment, Lisbon, 1990, 2:983-989. 被引量:1
  • 8Lodder P, Lefers J B. Effect of natural gas, C2H6 and CO on the homogeneous gas phase reduction of NOx by NH3[J]. The Chemical Engineering Journal, 1985, 30(2): 161-167. 被引量:1
  • 9Suhlmann J, Rotzoll G. Experimental characterization of the influence of CO on the high-temperature reduction of NO by sn3[J]. Fuel, 1993, 72(2): 175-179. 被引量:1
  • 10Hemberger R, Muffs S, Pleban K-U, et al. An experimental and modeling study of the selective non-catalytic reduction of NO by ammonia in the presence of hydrocarbons[J]. Combustion and Flame 1994, 99(3-4): 660-668. 被引量:1

二级参考文献82

共引文献123

同被引文献30

  • 1Mahmoudi S, Baeyens J, Seville J P K. NOx formation and selective non-catalytic reduction(SNCR)in a fluidized bed combustor of biomass[J]. Biomass & Bioenergy, 2010, 34(9): 1393-1409. 被引量:1
  • 2Lyon R K. Thermal DeNOx controlling nitrogen oxides emissions by a noncatalytic process[J]. Environmental Science Technology, 1987, 21(3): 231-236. 被引量:1
  • 3Bae S W, Roh S A, Kim S D. NO removal by reducing agents and additives in reduction(SNCR)process[J] the selective non-catalytic Chemosphere, 2006, 65(1):170-175. 被引量:1
  • 4Nguyen T D B, Lim Y, Eom W, et al. Experiment and CFD simulation of hybrid SNCR-SCR using urea solution in a pilot-scale reactor[J]. Computers & Chemical Engineering, 2010, 34(10): 1580-1589. 被引量:1
  • 5Javed M T, Irfan M, Gibbs B M. Control. of combustion-generated nitrogen oxides by selective non-catalytic reduction[J]. Journal of Environmental Management, 2007, 83(3): 251-298. 被引量:1
  • 6Cao Q, Liu H, Wu S. Theoretical study of the influence of mixing on the selective non-catalytic reduction process with CH4 or H2 addition[J]. Industrial & Engineering Chemistry Research, 2011, 50(18): 10859-10864. 被引量:1
  • 7Zamansky V M, Lissianski V V, Maly P M, et al. Reactions of sodium species in the promoted SNCR process. Combustion and Flame, 1999, 117(4), 821-831. 被引量:1
  • 8Kilpinen P, Glarborg P, Hupa M. Rebuming chemistry: a kinetic modeling study[J]. Industrial & Engineering Chemistry Research, 1992, 31(6): 1477-1490. 被引量:1
  • 9Lyon R K, Hardy J E. Discovery and development of the thermal DeNOx process[J]. Industrial & Engineering Chemistry Fundamentals, 1986, 25(1): 19-24. 被引量:1
  • 10Kasuya F, Glarborg P, Johnsson J E, et al. The thermal DeNOx process: influence of partial pressures and temperature[J]. Chemical Engineering Science, 1995, 50(9): 1455-1466. 被引量:1

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中国电机工程学报
2011年 第14期

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