| Experiment and mechanism investigation on advanced reburning for NOx reduction: influence of CO and temperature |
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| 作者姓名: | Wang ZH Zhou JH Zhang YW Lu ZM Fan JR Cen KF |
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| 作者单位: | CleanEnergy&EnvironmentEngineeringKeyLaboratoryofMinistryofEducation,ZhejiangUniversity,Hangzhou310027,China |
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| 摘 要: | Pulverized coal reburning, ammonia injection and advanced reburning in a pilot scale drop tube furnace were investigated. Premix of petroleum gas, air and NH3 were burned in a porous gas burner to generate the needed flue gas. Four kinds of pulverized coal were fed as reburning fuel at constant rate of 1g/min. The coal reburning process parameters including 15%~25% reburn heat input, temperature range from 1100 ℃ to 1400 ℃ and also the carbon in fly ash, coal fineness, reburn zone stoichiometric ratio, etc. were investigated. On the condition of 25% reburn heat input, maximum of 47% NO reduction with Yanzhou coal was obtained by pure coal reburning. Optimal temperature for reburning is about 1300 ℃ and fuel-rich stoichiometric ratio is essential; coal fineness can slightly enhance the reburning ability. The temperature window for ammonia injection is about 700 ℃~1100 ℃. CO can improve the NH3 ability at lower temperature. During advanced reburning, 72.9% NO reduction was measured. To achieve more than 70% NO reduction, Selective Non-catalytic NOx Reduction (SNCR) should need NH3/NO stoichiometric ratio larger than 5, while advanced reburning only uses common dose of ammonia as in conventional SNCR technology. Mechanism study shows the oxidization of CO can improve the decomposition of H2O, which will rich the radical pools igniting the whole reactions at lower temperatures.
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| 关 键 词: | NOx 一氧化碳 温度 大气污染 煤 污染物 |
Experiment and mechanism investigation on advanced reburning for NO(x) reduction: influence of CO and temperature |
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| Wang ZH,Zhou JH,Zhang YW,Lu ZM,Fan JR,Cen KF.Experiment and mechanism investigation on advanced reburning for NO(x) reduction: influence of CO and temperature[J].Journal of Zhejiang University Science,2005,6(3):187-194. |
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| Authors: | Wang Zhi-Hua Zhou Jun-Hu Zhang Yan-Wei Lu Zhi-Min Fan Jian-Ren Cen Ke-Fa |
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| Institution: | Clean Energy & Environment Engineering Key Laboratory of Ministry of Education, Zhejiang University, Hangzhou 310027, China wangzh@sun.zju.edu.cn |
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| Abstract: | Pulverized coal reburning, ammonia injection and advanced reburning in a pilot scale drop tube furnace were investigated. Premix of petroleum gas, air and NH3 were burned in a porous gas burner to generate the needed flue gas. Four kinds of pulverized coal were fed as reburning fuel at constant rate of 1g/min. The coal reburning process parameters including 15% approximately 25% reburn heat input, temperature range from 1100 degrees C to 1400 degrees C and also the carbon in fly ash, coal fineness, reburn zone stoichiometric ratio, etc. were investigated. On the condition of 25% reburn heat input, maximum of 47% NO reduction with Yanzhou coal was obtained by pure coal reburning. Optimal temperature for reburning is about 1300 degrees C and fuel-rich stoichiometric ratio is essential; coal fineness can slightly enhance the reburning ability. The temperature window for ammonia injection is about 700 degrees C approximately 1100 degrees C. CO can improve the NH3 ability at lower temperature. During advanced reburning, 72.9% NO reduction was measured. To achieve more than 70% NO reduction, Selective Non-catalytic NO(x) Reduction (SNCR) should need NH3/NO stoichiometric ratio larger than 5, while advanced reburning only uses common dose of ammonia as in conventional SNCR technology. Mechanism study shows the oxidization of CO can improve the decomposition of H2O, which will rich the radical pools igniting the whole reactions at lower temperatures. |
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| Keywords: | NO reduction Advanced burning Coal reburning Selective Non-catalytic NOx Reduction (SNCR) CO |
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