Experimental study on lignite and bituminous coal co-combustion in a bituminous coal fired 350 MW unit boiler

CHEN Baokang; CHEN Min; WANG Xiaohua; XUE Xiaolei; NIU Guoping; YANG Xun Xi'an Thermal Power Research Institute Co.

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Experimental study on lignite and bituminous coal co-combustion in a bituminous coal fired 350 MW unit boiler

更新时间：2025-09-28

- Experimental study on lignite and bituminous coal co-combustion in a bituminous coal fired 350 MW unit boiler
- Thermal Power Generation Vol. 42, Issue 6, Pages: 35-39(2013)
- 作者机构：
  
  西安热工研究院有限公司苏州分公司
- 作者简介：
- 基金信息：
- DOI：
  CLC： TK227.1
- Published：2013
- 稿件说明：
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CHEN Baokang, CHEN Min, WANG Xiaohua, et al. Experimental study on lignite and bituminous coal co-combustion in a bituminous coal fired 350 MW unit boiler[J]. Thermal power generation, 2013, 42(6): 35-39.
DOI：

CHEN Baokang, CHEN Min, WANG Xiaohua, et al. Experimental study on lignite and bituminous coal co-combustion in a bituminous coal fired 350 MW unit boiler[J]. Thermal power generation, 2013, 42(6): 35-39. DOI：

摘要

以某350MW机组燃用烟煤的锅炉为研究对象

采用输煤皮带预混的方式进行了不同比例的褐煤掺烧试验

分析了不同比例褐煤掺烧工况下制粉系统和燃烧系统运行的安全性、经济性和环保特性。结果表明:(1)掺烧扎煤后制粉系统所需的干燥出力大幅增加

单台炉掺烧比例最高不应超过50%;(2)随着扎煤掺烧比例的增大

再热汽温上升趋势较为明显

锅炉排烟温度、灰渣可燃物含量上升

锅炉效率降低

当掺烧扎煤比例达3/8时

锅炉效率降低约1.2百分点;(3)随着扎煤掺烧比例的增加NOx排放浓度不断降低

当掺烧扎煤比例达3/8时

NOx排放浓度降低约24.7%;(4)当扎煤与大友煤掺烧时

掺烧比例低于3/8不会加剧锅炉燃烧器区域以及高温对流受热面区域的结焦问题。

Abstract

Taking a bituminous coal fired 350 MW unit boiler as the object

experiment of co-combustion with different proportions of lignite premixed on coal convey belt was conducted.The safety

economy and environmental protection characteristic of the pulverizing and combustion system under different blending proportion of lignite conditions were investigated.The results showed that

after co-firing with the Zha coal

drying capacity that the pulverizing system needed increased dramatically

and the blending proportion of Zha coal should not be larger than 50% for each boiler.With an increase in the Zha coal proportion

the reheat steam temperature rose obviously

the exhaust temperature and ash combustible content increased

and the boiler efficiency dropped.When the proportion of Zha coal reached 3/8

the NOx emission dropped by about 24.7%.When co-firing the Zha coal with Dayou coal

proportion of less than 3/8 will not aggravate the slagging occurred in burner area and high temperature convective heating surface area.

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