Experimental Study on Characteristics of Oxygen-enriched Combustion of Pulverized Coal under Different Combustion Pressures
-
摘要: 为了研究不同燃烧压力下煤粉的富氧燃烧特性及烟气成分,运用加压固定床燃烧反应试验系统对不同燃烧压力下的煤粉进行了富氧燃烧试验,结果表明:随着燃烧压力的增大,燃烧中心的温度也随之增大,当燃烧压力大于3.0 MPa时燃烧中心的最高温度不再明显增大,维持在750 ℃左右;随着燃烧压力的增大,煤粉的着火时间不断缩短,煤粉的燃尽时间先减小后增加,当燃烧压力大于3.0 MPa时,煤粉的着火时间与燃尽时间随着压力的增大不再发生明显的变化;随着煤粉的燃烧,O2浓度先下降后上升,最后达到进气浓度,当燃烧压力大于3.0 MPa时,O2浓度在前3 min内的降速较快,说明在此工况下的煤粉燃烧剧烈;CO2浓度先下降后上升再下降达到进气浓度;CO浓度先上升后下降,随着燃烧压力的增加,燃烧过程中产生的CO浓度降低。Abstract: In order to study the characteristics of oxygen-enriched combustion of pulverized coal and smoke compositions under different combustion pressure, the oxygen-enriched combustion test of pulverized coal under different combustion pressure was carried out by using pressurized fixed bed combustion reaction test system.The results showed that the temperature of combustion center increased with the increase of combustion pressure, when the combustion pressure was more than 3.0 MPa, the maximum temperature of the combustion center no longer increased significantly, it maintained at about 750 ℃; with the increase of pressure, the ignition time of pulverized coal was shortened, the burning time decreased at first and then increased, when the combustion pressure was more than 3.0 MPa, the ignition time and burning time of pulverized coal were no longer change significantly with the increase of combustion pressure; with the burning of pulverized coal, the concentration of O2 decreased at first and then increased, and finally reached the intake air concentration, when the combustion pressure was more than 3.0 MPa, the concentration of O2 decreased rapidly in the first 3 min, indicating that the pulverized coal burned vigorously under such circumstances; the concentration of CO2 decreased at first, then increased and then decreased to reach the intake concentration; the concentration of CO increased at first and then decreased, and with the increase of combustion pressure, the concentration of CO produced during combustion decreased.
-
-
[1] 梁化鑫.煤粉在加压富氧条件下的燃烧特性研究[D].北京:北京交通大学, 2015. [2] HONG J, FIELD R, GAZZINO M, et al. Operating pressure dependence of the pressurized oxy-fuel combustion power cycle[J]. Energy, 2010, 35(12): 5391-5399.
[3] 葛学利, 乌晓江, 张建文, 等.富氧燃烧条件下炉内数值模拟研究[J].动力工程学报, 2016, 36(3):172-177. [4] 李先春, 任海飞, 余江龙, 等.富氧燃煤电厂褐煤干燥过程的数值模拟[J].煤炭转化, 2014, 37(3):38-41. [5] 孙晨亮, 章名耀.压力下各种因素对煤粒着火温度的影响[J].燃烧科学与技术, 1999, 5(3):313-318. [6] 蔡磊, 邹春, 贾汇桥, 等.煤粉在O2/N2和O2/H2O气氛下着火的实验研究[J].工程热物理学报, 2015, 36(5):1139-1142. [7] SAASTAMOINEN J J, AHO M J, HAMALAINEN J P, et al. Pressurized pulverized fuel combustion in different concentrations of oxygen and carbon dioxide[J]. Energy & Fuels, 1996, 10(1):121-133.
[8] 雷鸣, 王春波, 阎维平, 等.大同烟煤增压富氧燃烧的热重实验研究[J].中国电机工程学报, 2012, 32(5):21-26. [9] 康建东.适于煤矿乏风催化燃烧的高性能催化剂制备方法实验研究[J].矿业安全与环保, 2016, 43(6):1-4. [10] 许杨杨.富氧煤粉燃烧试验系统的数值模拟及优化[D].上海:上海交通大学, 2013. [11] 纪磊, 张安明, 田勇.振动床逆流低温富氧褐煤干燥系统煤粉着火爆炸危险性分析及其控制技术[J].矿业安全与环保, 2013, 40(6):90-93. [12] 王广伟, 张建良, 左海滨, 等.粒径对煤粉燃烧特性的影响及动力学分析[J].冶金能源, 2014, 33(2):49-53. [13] 张大兴.国内典型煤种在富氧条件下的燃烧性能[J].洁净煤技术, 2018, 24(2):90-95. [14] 唐昭帆, 卢玫, 王克, 等.210 MW煤粉炉燃烧系统改进的数值模拟[J].能源工程, 2016, 12(6):58-64. [15] 景涛, 肖业俭, 周志安, 等.基于测试的烟气循环烧结工艺[J].中国冶金, 2016, 26(9):42-47. -
期刊类型引用(2)
1. 田水承,孟少聪. 煤粉氧化燃烧特性实验研究. 科学技术创新. 2020(27): 13-15 . 
百度学术
2. 侯志勇,李弯弯,王振平,王俊哲,杨婷. 不同堆积厚度下煤粉自燃预测研究. 西安科技大学学报. 2020(06): 967-973 . 百度学术
其他类型引用(6)
计量
- 文章访问数: 28
- HTML全文浏览量: 0
- PDF下载量: 5
- 被引次数: 8
下载:
