CFD-modelling of Selective Non-Catalytic Reduction of NOx in grate-kiln plants

被引:21
作者
Burstrom, Per E. C. [1 ]
Lundstrom, T. Staffan [1 ]
Marjavaara, B. Daniel [2 ]
Toyra, Simon [2 ]
机构
[1] Lulea Univ Technol, Div Fluid Mech, SE-97187 Lulea, Sweden
[2] LKAB, SE-98186 Kiruna, Sweden
来源
PROGRESS IN COMPUTATIONAL FLUID DYNAMICS | 2010年 / 10卷 / 5-6期
关键词
NOx reduction; SNCR; selective non-catalytic reduction; urea solution; ammonia solution; grate-kiln; kinetic model; CFD; computational fluid dynamics; simulation; injection; evaporation; decomposition; FLOW REACTOR; COMBUSTION; UREA; SIMULATION; OXIDES; SNCR;
D O I
10.1504/PCFD.2010.035361
中图分类号
O414.1 [热力学];
学科分类号
摘要
The overall goal of this project is to find out if Selective Non-Catalytic Reduction (SNCR) technologies can be used in grate-kiln plants for NO, reduction. The technique has, to the best knowledge of the authors, never been used in this context before. despite that it is commonly used in cement and waste incineration plants. A model for spray injection into the grate was included in the model enabling a study of the overall mixing between the injected reagent droplets and the NO, polluted air. The simulations indicate that the SNCR-tcchnique works with urea, but not with ammonia.
引用
收藏
页码:284 / 291
页数:8
相关论文
共 50 条
[21]   Effect of CaO on the selective non-catalytic reduction deNOx process: Experimental and kinetic study [J].
Fu, Shi-long ;
Song, Qiang ;
Tang, Jun-shi ;
Yao, Qiang .
CHEMICAL ENGINEERING JOURNAL, 2014, 249 :252-259
[22]   Nitrous oxide formation and emission in selective non-catalytic reduction process [J].
Yang W. ;
Zhou J. ;
Zhou Z. ;
Cen K. .
Frontiers of Energy and Power Engineering in China, 2007, 1 (2) :228-232
[23]   Reaction Characteristics of NOx and N2O in Selective Non-Catalytic Reduction Using Various Reducing Agents and Additives [J].
Park, Poong-Mo ;
Park, Young-Kwon ;
Dong, Jong-In .
ATMOSPHERE, 2021, 12 (09)
[24]   Experimental and modeling study of the effects of multicomponent gas additives on selective non-catalytic reduction process [J].
Cao, Qingxi ;
Wu, Shaohua ;
Lui, Hui ;
Liu, Dunyu ;
Qiu, Penghua .
CHEMOSPHERE, 2009, 76 (09) :1199-1205
[25]   Selective Non-catalytic Reduction (SNCR) of Nitrogen Oxide Emissions: A Perspective from Numerical Modeling [J].
Carlo Locci ;
Luc Vervisch ;
Benjamin Farcy ;
Pascale Domingo ;
Nicolas Perret .
Flow, Turbulence and Combustion, 2018, 100 :301-340
[26]   Control of nitrogen oxides emission by selective non-catalytic reduction in preheating section during iron ore pellets production [J].
Gan, Min ;
Shu, Wang ;
Ji, Zhi-yun ;
Zhou, Zhi-an ;
Fan, Xiao-hui ;
Hu, Bing ;
Wang, Guo-jing ;
Zhu, Yuan ;
Sun, Ya-fei .
JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL, 2022, 29 (02) :215-222
[27]   Control of combustion-generated nitrogen oxides by selective non-catalytic reduction [J].
Javed, M. Tayyeb ;
Irfan, Naseem ;
Gibbs, B. M. .
JOURNAL OF ENVIRONMENTAL MANAGEMENT, 2007, 83 (03) :251-289
[28]   CONVECTIVE RECIRCULATION EFFECT ON THE SELECTIVE NON-CATALYTIC REDUCTION BEHAVIOR IN AN INDUSTRIAL FURNACE [J].
Oliveira, F. C. L. ;
Martignoni, W. P. ;
Souza, E. ;
Pereira, L. G. ;
Santos, L. S. ;
Prata, D. M. ;
Monteiro, L. P. C. .
BRAZILIAN JOURNAL OF CHEMICAL ENGINEERING, 2017, 34 (04) :1011-1021
[29]   Selective non-catalytic reduction - Fe-based additive hybrid technology [J].
Daood, Syed Sheraz ;
Yelland, Thomas S. ;
Nimmo, William .
FUEL, 2017, 208 :353-362
[30]   Numerical Study of Selective Non-catalytic Reduction Process in Large Utility Boiler [J].
Cao, Qingxi ;
Liu, Hui ;
Wu, Shaohua ;
Wu, Wenyan ;
Yu, Suiying ;
Li, Zhenzhong ;
Yang, Chunhui .
THERMAL, POWER AND ELECTRICAL ENGINEERING, PTS 1 AND 2, 2013, 732-733 :258-+
12345