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煤岩有机显微组分热解过程中HCN和NH3生成规律的研究
引用本文:林建英,李文英,常丽萍,谢克昌. 煤岩有机显微组分热解过程中HCN和NH3生成规律的研究[J]. 燃料化学学报, 2004, 32(6): 663-667
作者姓名:林建英  李文英  常丽萍  谢克昌
作者单位:Key Laboratory of Coal Science and Technology, Ministry of Education and Shanxi Province, Taiyuan University of Technology, Taiyuan 030024, China
基金项目:国家自然科学基金(20276046); 国家重点基础研究发展规划项目 (G1999022101).
摘    要:经等密度梯度离心分离,从褐煤、长焰煤、气煤和贫煤四种不同变质程度煤中获得了高纯度的有机显微组分。用石英管式反应器在600 ℃~900 ℃考察了煤岩有机显微组分热解过程中HCN和NH3的生成规律。实验结果表明,在显微组分热解过程中HCN主要是挥发分二次裂解的产物。在镜质组热解过程中,煤的变质程度越高,HCN的生成率越低,热解温度越高,HCN的生成率越高;同一种煤三种有机显微组分热解过程中,HCN的生成不仅与显微组分挥发分的质量分数有关,而且与显微组分中氮的存在形态有关,在较低温度热解时吡咯型氮质量分数高的煤样HCN的生成率较高。显微组分热解过程中NH3来自于挥发分的二次热裂解,与焦的热裂解有关,随煤变质程度增高,镜质组热解过程中NH3的收率降低;对同一种煤三种煤岩有机显微组分,由于其黏结性不同,含氮官能团和氢自由基的接触几率不同,生成NH3的能力也不同,惰质组的NH3生成率最高,壳质组最低;温度对NH3的生成也有影响,800 ℃NH3的生成率最高,惰质组NH3的生成率为11.8%,壳质组NH3的生成率为5.2%。

关 键 词:煤岩有机显微组分  热解  HCN  NH3  释放规律  
文章编号:0253-2409(2004)06-0663-05
收稿时间:2003-11-08
修稿时间:2003-11-08

Studies on the formation of HCN and NH3 during coal macerals pyrolysis
LIN Jian-ying,LI Wen-ying,CHANG Li-ping,XIE Ke-chang Province,Taiyuan University of Technology,Taiyuan,China). Studies on the formation of HCN and NH3 during coal macerals pyrolysis[J]. Journal of Fuel Chemistry and Technology, 2004, 32(6): 663-667
Authors:LIN Jian-ying  LI Wen-ying  CHANG Li-ping  XIE Ke-chang Province  Taiyuan University of Technology  Taiyuan  China)
Affiliation:LIN Jian-ying,LI Wen-ying,CHANG Li-ping,XIE Ke-chang Province,Taiyuan University of Technology,Taiyuan030024,China)
Abstract:Coal maceral concentrates of high purity were prepared from four different rank coals by Density Gradient Centrifugation method. The formation of HCN and NH3 during macerals pyrolysis was investigated in a tubular quartz reactor at the temperature of 600 ℃~900 ℃. The results show that HCN is mainly produced by the secondary thermal cracking of coal volatile. It also shows that the HCN yield increases with temperature and decreases with coal rank for vitrinite pyrolysis. For three macerals from Pingshuo gas coal, the yield of HCN is not only related to their volatile content but also associated with the nitrogen functional group in different macerals. Macerals withmore pyrrole-type nitrogen could release more HCN at lower temperature. As for the formation of NH3, besides the volatile thermal cracking, the char pyrolysis also plays a important role. The yield of NH3 depends on the probability of contact between nitrogen functional group and hydrogen radical. On the experiment conditions, the NH3 yield decreases with coal rank for vitrinite pyrolysis. The inertinite of less caking has more nitrogen converted to NH3 than vitrinite and liptinite. The yield of NH3 during pyrolysis at 800 ℃ is maximum with 11.8% for inertinite and 5.2% for liptinite.
Keywords:coal macerals   pyrolysis   release of nitrogenous   HCN   NH_3
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