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Application of Urea Based Selective Non-Catalytic Reductionudof Nitric Oxide in the Combustion Effluent Containing LowudConcentration of NOx.

机译：尿素选择性非催化还原的应用 ud一氧化氮在燃烧废水中的影响NOx浓度。

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Selective Non-Catalytic Reduction (SNCR) of Nitric Oxide has been studied experimentally using commercial grade of urea in a pilot-scale diesel fired tunnel furnace. The furnace simulated small-scale combustion systems such as low capacity boiler, hot water heater, oil heater etc., where the operating temperature is in the range of about 900 to 1300 K. The experiment was conducted with low ppm of base line NOx ranged from 65 to 74 ppm. A significant amount of NOx reduction was achieved which was not pronounced by the previous researchers with urea SNCR for this low ppm of NOx. At a normalized stoichiometric ratio (NSR) of 4, a maximum of 54% reduction was achieved at 1128 K without adding any additives. The effective temperature window for the reaction was about 973 to 1183 K which was lower than that obtained by the previous researchers. Although the NOx reduction was improved and effective temperature window widened for higher injection rate of the reagent, the optimum temperature of reduction remained almost unaffected.

机译：一氧化氮的选择性非催化还原（SNCR）已在中试规模的燃煤隧道炉中使用商业级尿素进行了实验研究。该炉模拟了小型燃烧系统，例如低容量锅炉，热水加热器，油加热器等，其工作温度在约900至1300 K的范围内。从65至74 ppm。如此低的NOx含量实现了显着的NOx还原，这在以前的研究人员使用尿素SNCR时并未实现。在归一化化学计量比（NSR）为4的情况下，在不添加任何添加剂的情况下，在1128 K下最大减少了54％。该反应的有效温度范围约为973至1183 K，低于先前研究人员获得的温度范围。尽管提高了NOx的还原度并扩大了有效温度范围以提高试剂的注入速度，但最佳的还原温度几乎不受影响。

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Hossain K. A.; Jaafar M. N. M.; Mustafa A.; Ani F. N.;
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年度 2004
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正文语种 {"code":"en","name":"English","id":9}
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专利

1. APPLICATION OF UREA BASED SNCR SYSTEM IN THE COMBUSTION EFFLUENT CONTAINING LOW LEVEL OF BASELINE NITRIC OXIDE [J] . K. A. HOSSAIN, M N. MOHD-JAAFAR, K. B. APPALANIDU, Environmental Technology . 2005,第3期

机译：基于尿素的SNCR系统在低水平一氧化氮燃烧废气中的应用
2. The Reduction of Noxious Emissions Using Urea Based on Selective Non-Catalytic Reduction in Small Scale Bio Fuel Combustion System [J] . Mohamad Shaiful Ashrul Ishak, Mohammad Nazri Mohd. Jaafar Modern Applied Science . 2011,第2期

机译：小型生物燃料燃烧系统中基于选择性非催化还原的尿素减少有害排放
3. Numerical simulation of urea based selective non-catalytic reduction deNOx process for industrial applications [J] . Baleta Jakov, Mikulcic Hrvoje, Vujanovic Milan, Energy Conversion & Management . 2016,第octa期

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4. Selective non-catalytic reduction (sncr) of nitric oxides by urea: effects of oxygen and carbon monoxide [C] . Srinivas Srivatsa, Jerald A. Caton Combustion fundamentals and applications . 1998

机译：尿素对氮氧化物的选择性非催化还原（sncr）：氧气和一氧化碳的影响
5. Experiments on the selective non-catalytic reduction of nitric oxide. [D] . Smith, Tyn Suttle. 1995

机译：选择性非催化还原一氧化氮的实验。
6. Experiment and simulation study of the effect of ethanol and compound additives on the urea-based selective non-catalytic reduction process under moderate temperature conditions [O] . Bang Wu, Ge Pu, Jiantai Du 2018

机译：适度温度条件下乙醇和复合添加剂对尿素基选择性非催化还原过程影响的实验与模拟研究
7. Small scale application of urea based selective non-catalytic reduction of nitric oxide in diesel burning effluent [O] . Mustafa A., Hossain K. A., Jaafar M. N. M., 2003

机译：尿素基选择性非催化还原一氧化氮在柴油机燃烧废水中的小规模应用
8. Selective Analysis for Carbon Monoxide,Hydrocarbons,and Nitric Oxide in a Stream of Internal Combustion Engine Exhaust Gases: A Literature Survey. [R] . sheffer,peter c. boyd, j. michael 1976

机译：内燃机废气流中一氧化碳，碳氢化合物和一氧化氮的选择性分析：文献综述。

Application of Urea Based Selective Non-Catalytic Reductionudof Nitric Oxide in the Combustion Effluent Containing LowudConcentration of NOx.

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