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浙江大学学报(工学版)
J4  2011, Vol. 45 Issue (11): 2026-2030    DOI: 10.3785/j.issn.1008-973X.2011.11.023
    
Experimental research on gas components and heating value in
pressurized turbulent circulating fluidized bed gasifier
LI Bin, HUANG Ya-ji, JIN Bao-sheng, DUAN Feng, ZHANG Ming-yao
School of Energy and Environment, Southeast University , Nanjing 210096, Jiangsu, China
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Abstract  

To discuss the influence of different operating parameters on the gas components and the lower heating value (LHV) of pressurized turbulent circulating fluidized bed (CFB) coal gasification, hot test was successfully realized by multiparameters operating mode using Huaibei bituminous coal. During the test, the gasification pressure kept 0.3 MPa, the gasification temperature ranged from 830 to 910 ℃, the air/coal ratio ranged from 0.29 to 0.4 kg/kg and the steam/coal ratio ranged from 0.32 to 0.53 kg/kg. In the riser, turbulent fluidization in the dense zone and core-annulus flow in the dilute zone was established by using the wide-screen quartz sands. Experimental results prove the feasibility of a pressurized turbulent CFB coal gasification process.The gasification temperature has the most significant effect on the gasification process. The maximally taking value of the sum of combustible components exists when the air/coal ratio was 0.35 kg/kg and the steam/coal ratio was 0.38 kg/kg. The LHV is 4138.98 kJ/m3 at this moment.

Published: 08 December 2011
CLC:  TQ 546  
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Cite this article:

LI Bin, HUANG Ya-ji, JIN Bao-sheng, DUAN Feng, ZHANG Ming-yao. Experimental research on gas components and heating value in
pressurized turbulent circulating fluidized bed gasifier. J4, 2011, 45(11): 2026-2030.

URL:

https://www.zjujournals.com/eng/10.3785/j.issn.1008-973X.2011.11.023     OR     https://www.zjujournals.com/eng/Y2011/V45/I11/2026


加压湍动循环流化床气化炉煤气成分与热值试验

为了研究不同操作工艺参数对加压循环流化床煤气化特性的影响,在加压湍动循环流化床热态实验台上对淮北烟煤进行煤气化试验,试验操作条件:气化炉压力p为0.3 MPa、气化温度t为830~910 ℃、空气煤质量分数w(空气煤)为0.29~0.4 kg/kg、蒸汽煤质量分数w(蒸汽煤)为0.32~0.53 kg/kg.通过多参数组合变换工况,分别考察试验操作条件对煤气成分和煤气热值的影响.采用宽筛分石英砂作为床料,在试验过程中粗石英砂加剧气化炉提升段下部密相区的扰动程度,同时细石英砂提高上部稀相区颗粒体积分数,加上气化炉本体具有下宽上窄的特征,在一定范围内实现气化炉提升段下部湍动流化,上部环核流动.结果表明,气化炉温度对加压煤气化过程影响最为显著,并在w(空气煤)为0.35 kg/kg、w(蒸汽煤)为0.38 kg/kg时,煤气热值达到最大值4 138.98 kJ/m3.

[1] ZHANG Rongguang,NA Yongjie,L Qinggang.Experimental study on coal gasification in a circulating fluidized bed [J].Proceedings of the CSEE,2005,25(9):103-107.
[2] 刘武标,刘德昌,米铁,等.流化床水煤气炉飞灰反应性的实验研究[J].中国电机工程学报,2003,23(9):189-192.
LIU Wubiao,LIU Dechang,MI Tie,et al.Experimental research on reactivity of fly ash from a fluidized bed watergas gasifier [J].Proceedings of the CSEE,2003,23(9):189-192.
[3] OCAMPO A,ARENAS E,CHEJNE F,et al.An experiment study on gasification of colombian coal in fluidized bed [J].Fuel,2003,82(2):161-164.
[4] HARRIS D J,ROBERTS D G,HENDERSON D G.Gasification behaviour of australian coal at high temperature and pressure [J].Fuel,2006,85(2):134-142.
[5] KIM Y J,LEE J M,KIM S D.Modeling of coal gasification in an internally circulating fluidized bed reactor with draught tube [J].Fuel,2000,79(1):69-77.
[6] WU Jinhu,FANG Yitian,PENG Hui.A new integrated approach of coal gasification:the concept and preliminary experimental results[J].Fuel Processing Technology,2004,86(3):261-266.
[7] NENAD C,BRANISLAV R,RASTKO M.Experimental investigation of role of steam in entrained flow coal gasification [J].Fuel,2007,86(1/2):194-202.
[8] DAI Zhenghua,GONG Xin,GUO Xiaolei,et al.Pilottrial and modeling of a new type of pressurized entrainedflow pulverized gasification technology [J].Fuel,2008,87(10/11):2304-2313.
[9] XIAO Rui,ZHANG Mingyao,JIN Baosheng,et al.Air blown partial gasification of coal in a pilot plant pressurized spoutfluid bed reactor [J].Fuel,2007,86(10/11):1631-1640.
[10] 吴家桦,沈来宏,肖军, 等.串行流化床煤气化试验[J].化工学报,2008,59(9):2104-2110.
WU Jiahua,SHEN Laihong,XIAO Jun,et al.Experiment study on coal gasification in interconnected fluidized bed [J].Journal of Chemical Industry and Engineering,2008,59(9):2104-2110.
[11] 段锋,金保昇,黄亚继,等.气化剂预热温度对加压湍动循环流化床煤气化的影响[J].化工学报,2009,60(12):3112-3116.
DUAN Feng,JIN Baosheng,HUANG Yaji,et al.Effect of gasifying agent preheating temperature on pressurized turbulent CFB coal gasification [J].Journal of Chemical Industry and Engineering,2009,60(12):3112-3116.
[12] 金涌,祝京旭,汪展文,等.流态化工程原理[M].北京:清华大学出版社,2000∶78-95.
[13] 黄亚继,金保升,仲兆平,等.循环流化床部分煤气化试验研究[J].煤炭科学与技术,2003,31 (2):20-22.
HUANG Yaji,JIN Baosheng,ZHONG Zhaoping,et al.Experiment and research on partial coal gasification in circulated fluidized bed [J].Coal Science and Technology,2003,31 (2):20-22.
[14] POHORˇELY′ M,VOSECKY′ M,HEJDOV P,et al.Gasification of coal and PET in fluidized bed reactor [J].Fuel,2006,85(17/18):2458-2468.
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