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高级空气分级脱硝特性的实验研究 被引量:9

Experimental Study on NO_x Reduction by Advanced Air-staging
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摘要 在一台20kW电加热多功能低NOx试验台上对高级空气分级——空气分级富燃料区喷氨脱除Nox进行了实验研究。研究发现,主燃区过量空气系数SR1、温度T以及化学计量比NSR是影响氨剂对Nox还原的重要参数。1000℃时,较小SR,不利于氨剂对Nox的还原。增大SR1时,由于初始Nox水平较高,能一定程度上提高喷氨后的脱硝效率。主燃区温度为1300℃时,在SR1=0.75、SR1=0.85下喷氨都能提高10%左右的脱硝效率,但在SR1=0.95、SR1=0.99时,较大NSR下,脱硝效率有一定回落。高温能促进较小SR1下喷氨后的脱硝效果,但在SR1较大时,高温对氨剂还原Nox不利。大部分试验工况下,NSR在1.5~2范围内,脱硝效率取得最佳值。 Investigations on advanced air-staging-NOx reduction by Injecting ammonia into Primary Zone of Air-staging were carried out with an electrically heated multi-function low NOx test rig. The results show that stoichiometry(SR1 ) and temperature(T) are the key parameter which influence the NOx emission. When T= 1 000 ℃ ,it is not favorable to enhance the NOx reduction by injecting the ammonia into the primary zone when SR1 = 0.75 or SR1 = 0.85. When T= 1 300 ℃, the NOx reduction can be enhanced 10 % by ammonia when SR1 =0. 75 and 0.85. However, the reduction began to decline as the NSR increasing when SR1 =0. 95 and SRI =0. 99. Higher tem- perature is favorable to enhance the NOx reduction efficiency in lower SR1 conditions. But it might result in high NOx emission in higher SR1 condition. In most test conditions, the best NOx reduc- tion occurred while NSR is in the rang of 1.5-2.
作者 李超 吕学敏 罗永浩 陆方 段佳
机构地区 上海交通大学机械与动力工程学院
出处 《锅炉技术》 北大核心 2009年第2期63-67,共5页 Boiler Technology
基金 上海市科委重大攻关项目资助(05dz12027)
关键词 NOx 空气分级 喷氨 SR NSR NOx air staging ammonia injection SR NSR
分类号 X773 [环境科学与工程—环境工程]
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参考文献16

  • 1陈梅倩,何伯述.氨法脱除烟气中气态污染物的应用分析[J].北方交通大学学报,2003,27(4):69-74. 被引量:19
  • 2黄霞,刘辉,吴少华.选择性非催化还原(SNCR)技术及其应用前景[J].电站系统工程,2008(1):12-14. 被引量:30
  • 3M. Tayyeb Javeda , Naseem Irfana, B.M. Gibbs. Control of combustion-generated nitrogen oxides by selective non-catalytic reduction [J]. Journal of Environmental Management, 2007, 83:251-289.
  • 4S.L. Chen, J.A. Cole, M.P. Heap, et al. Advanced NOx Reduction Processes Using-NH and -CN Compounds in Conjunction with Staged Air Addition[J]. Symposium (International) on Combustion, 1989, 22(1):1135-1145.
  • 5Vladimir M. Zamansky, Loe Ho, Peter M. Maly, et al. Reburning promoted by nitrogen and sodium-containing compounds[J]. Symposium (International) on Combustion 1996,21:711-722.
  • 6Maly P M, Zamansky V M, Ho L, et al. Alternative fuel reburning[J]. Fuel, 1999, 78:327-334.
  • 7J. O. L. Wendt and C. V. Sternling, Effect of ammonia in gaseous fuels on nitrogen oxide emissions[J]. Journal of the Air Pollution Control Association, 1974,24(11):1055-1058.
  • 8Arun C. Bose, Karin M. Dannecker, and Jost O. L. Wendt, Coal composition effects on mechanisms governing the destruction of NO and other nitrogenous species during fuel-rich combustion [J]. Energy and Fuels, 1988(2) :301-308.
  • 9Ulrich Greul, Helmut Rudiger, Hartmut Spliethoff, et al. NOx controlled combustion in a bench scale test facility [J]. Technical Conference on Coal Utilization & Fuel systems 1996,21:711 -722
  • 10Mike Bockelie, Marc Cremer, Kevin Davis, et al. NOx control options and integration for US coal fired boilers Final Report [R]. America, Reaction Engineering International, 2006:21-67.

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锅炉技术
2009年 第2期

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