摘要
文章针对大型煤粉锅炉中基于氧气(O_(2))和一氧化碳(CO)浓度的燃烧控制技术进行了研究,强调了O_(2)和CO浓度监控在优化燃烧过程、提高能效、减少排放中的重要性,介绍了煤粉锅炉的工作原理、燃烧过程的基本理论,以及影响燃烧效率的主要因素,重点讨论了自适应控制、智能预测控制和优化控制技术在燃烧管理中的应用。通过实际案例分析,展示了基于O_(2)和CO浓度的控制技术在提高燃烧效率和降低NOx排放方面的效果。
The research focuses on combustion control technology based on oxygen(O_(2))and carbon monoxide(CO)concentrations in large coal-fired boilers.Emphasis was placed on the importance of monitoring O_(2) and CO concentrations in optimizing combustion processes,improving energy efficiency,and reducing emissions.Introduced the working principle of coal powder boilers,the basic theory of combustion process,and the main factors affecting combustion efficiency.The focus was on the application of adaptive control,intelligent predictive control,and optimization control technologies in combustion management.Through practical case analysis,the effectiveness of control technology based on O_(2) and CO concentrations in improving combustion efficiency and reducing NOx emissions was demonstrated.
作者
李彦彪
张正霞
LI Yanbiao;ZHANG Zhengxia
出处
《今日自动化》
2024年第3期4-6,共3页
Automation Today
关键词
煤粉锅炉
燃烧控制
氧气浓度
coal powder boiler
combustion control
oxygen concentration