首页|期刊导航|节能|用于钢铁加热炉工艺提升和减少污染物的无焰纯氧燃烧技术研究和工业运用

用于钢铁加热炉工艺提升和减少污染物的无焰纯氧燃烧技术研究和工业运用OA

Research and industrial application of flameless pure oxygen combustion technology for improving the process of steel heating furnaces and reducing pollutants

中文摘要英文摘要

为提升钢铁加热炉工艺水平并降低污染物排放,以300 kW无焰纯氧燃烧器为研究对象,采用原理设计、试验测试与计算流体力学(CFD)模拟相结合的方法,建立无焰纯氧燃烧器系统设计流程,通过试验测试得到其加热特性,并利用CFD模拟结果进一步验证试验结果.结果表明,系统在炉温700~800℃时可实现无焰燃烧;CFD模拟显示炉内温度均匀性良好,数值分析与试验结果吻合良好.

To enhance the heating process of steel furnaces and reduce pollutant emissions,a 300 kW flameless pure oxygen burner is selected as the research object.By combining principle design,experimental testing and computational fluid dynamics(CFD)simulation,the system design process of the flameless pure oxygen burner is established.Through experimental testing,its heating characteristics are obtained,and the CFD simulation results are used to further verify the experimental results.The results show that the system can achieve flameless combustion at a furnace temperature range of 700℃to 800℃.The CFD simulation indicates that the temperature uniformity inside the furnace is good,and the numerical analysis is in good agreement with the experimental results.

付百川;裴永军;张义贵;龙历

上海岱鼎工业设备有限公司,上海 200120上海岱鼎工业设备有限公司,上海 200120上海岱鼎工业设备有限公司,上海 200120上海岱鼎工业设备有限公司,上海 200120

矿业与冶金

无焰纯氧燃烧超低排放工业窑炉CFD模拟

flameless pure oxygen combustionultra-low emissionsindustrial furnaceCFD simulation

《节能》 2026 (1)

95-98,4

10.3969/j.issn.1004-7948.2026.01.022

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