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双区燃烧技术应用于降低NOx的数值模拟研究

Numerical Simulation of a 200MW Tangentially Fired Boiler with Double-zone Combustion Technique for NO_x Reducing
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摘要 双区燃烧是降低NOx排放,防止炉内结渣的一项新技术。利用CFD软件平台,采用数值模拟方法对其某电厂200 mm四角切圆锅炉改造前后炉内燃烧过程进行研究。计算结果表明:采用双区燃烧技术使炉膛中形成了温度,组分和颗粒相参数显著不同的中心区和近壁区。由于附壁射流的作用,使得高温区集中在炉膛中部,有效的防止了锅炉结渣;改造后炉内有比常规燃烧方式锅炉更大的还原气氛区域,抑制了NOx的产生,使其排放降低34.6%。 Double-zone combustion is a new technique to reduce NO, and slagging. Numerical simulation of combustion process in a 200 MW coal-fired boiler is performed on CFD software platform. Results show that after the reconstruction, there are two zones formed in the boiler, central zone and near wall zone, whose distribution of temperature, component and particles are very different. Because of combined-jet flow, the high temperature zone is concentrate on the center of the boiler, and the slagging problem can be ameliorated. The new combustor is applied and the boiler can reach a much lower NOT emis sion.
作者 邢菲 樊未军 崔金雷 邓元凯
机构地区 北京航空航天大学能源与动力工程学院 北京国电科环洁净燃烧工程技术有限公司
出处 《锅炉技术》 北大核心 2009年第2期39-44,共6页 Boiler Technology
关键词 双区燃烧 附壁射流 改造 数值模拟 double-zone combustion combined-jet flow reconstruction numerical simulation
分类号 TK223.23 [动力工程及工程热物理—动力机械及工程]
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锅炉技术
2009年 第2期

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