裂解炉低氮燃烧器优化运行探讨

乙烯工业 ›› 2018, Vol. 30 ›› Issue (4): 53-56.

裂解炉低氮燃烧器优化运行探讨

魏月娥，王猛

中国石油化工股份有限公司北京燕山分公司，北京 102500

收稿日期:2018-04-04 接受日期:2018-08-15 出版日期:2018-12-25 发布日期:2018-12-30
作者简介:魏月娥，女，2007年毕业于天津大学化学工程专业，硕士，主要从事石油化工优化咨询工作，高级工程师。

Optimal Operation of Low-NOx Burner in Cracking Furnace

Wei Yue’e，Wang Meng

SINOPEC Beijing Yanshan Company, Beijing, P.C.102500

Received:2018-04-04 Accepted:2018-08-15 Online:2018-12-25 Published:2018-12-30

摘要/Abstract

摘要： 对CBL-Ⅲ型100 kt裂解炉应用低氮燃烧器后,烟气NOx排放超标原因进行分析。结合低氮燃烧器设计条件、工作原理和实际运行状况，对裂解炉炉体漏风处进行封堵。通过调整风机转速,底部、侧壁风门开度等手段，控制烟气内氧气含量，优化炉膛热场分布,降低裂解炉烟气内NOx生成量。通过优化调整，裂解炉在正常运行工况下NOx排放达到国家排放要求。同时摸索出了烟气内氧气含量对NOx和CO生成的影响，确定了最优的烟气氧含量区间。分析裂解炉生产负荷对NOx生成的影响，提出负荷变化后裂解炉操作调整方向。形成低氮燃烧器操作手册,指导裂解炉日常操作。

关键词: 裂解炉, 低氮燃烧器, NOx

Abstract: This paper analyzes the reasons for the over high NOx emissions in exhaust gas after low-NOx burner was used in the 100 kt/a CBL-III cracking furnace. In consideration of the design conditions, working principles and actual operation of the low-NOx burner, the air leakage of the furnace body was blocked. Through adjusting the fan speed and the throttle opening of bottom burner and side wall burner, the oxygen content of exhaust gas was controlled and the thermal field distribution of furnace was optimized to reduce the NOx production in exhaust gas. After the optimization, NOx emissions of cracking furnace during normal operation met the national emission requirements. The influence of oxygen content of exhaust gas on NOx and CO production was explored, and an optimal range of oxygen content was determined. The influence of furnace production load on NOx production was analyzed, and the direction of operation adjustment of cracking furnace was proposed after the load changed. An operation manual was developed for low-NOx burner to guide the routine operation of cracking furnace.

Key words: cracking furnace, low-NOx burner, NOx

魏月娥，王猛. 裂解炉低氮燃烧器优化运行探讨[J]. 乙烯工业, 2018, 30(4): 53-56.

Wei Yue’e，Wang Meng. Optimal Operation of Low-NOx Burner in Cracking Furnace[J]. Ethylene Industry, 2018, 30(4): 53-56.

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