Effect of KOH loading on different coals hydrogasification

HONG Bing-qing; CHEN Fan-min; WANG Xing-jun; YU Guang-suo

Volume 40 Issue 09

Sep. 2012

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HONG Bing-qing, CHEN Fan-min, WANG Xing-jun, YU Guang-suo. Effect of KOH loading on different coals hydrogasification[J]. Journal of Fuel Chemistry and Technology, 2012, 40(09): 1032-1037.

Citation:

HONG Bing-qing, CHEN Fan-min, WANG Xing-jun, YU Guang-suo. Effect of KOH loading on different coals hydrogasification[J]. Journal of Fuel Chemistry and Technology, 2012, 40(09): 1032-1037.

HONG Bing-qing, CHEN Fan-min, WANG Xing-jun, YU Guang-suo. Effect of KOH loading on different coals hydrogasification[J]. Journal of Fuel Chemistry and Technology, 2012, 40(09): 1032-1037.

Citation:

HONG Bing-qing, CHEN Fan-min, WANG Xing-jun, YU Guang-suo. Effect of KOH loading on different coals hydrogasification[J]. Journal of Fuel Chemistry and Technology, 2012, 40(09): 1032-1037.

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Effect of KOH loading on different coals hydrogasification

Key Laboratory of Coal Gasification of Ministry of Education, East China University of Science and Technology, Shanghai 200237, China

Received Date: 2011-11-18
Rev Recd Date: 2012-02-13
Publish Date: 2012-09-29

Abstract

Abstract

The effects of KOH loading on the hydrogasification of Hohhot(HH) coal and Pingzhuang(PZ) coal from Inner Mongolia were studied in a pressurized fixed-bed reactor, and the analysis methods of slag washing, atomic absorption and XRD were adopted to investigate the intrinsic characteristics of coal structure that affect the hydrogasification reactivity. The experimental results show that the total gas productivity of HH coal hydrogasification can be enhanced obviously by increasing the catalyst loading, and the catalyst loading saturation level is about 15%. On the other hand, KOH shows an inconspicuous effect on PZ coal hydrogasification unless the catalyst loading is higher than 30%, and the total gas productivity does not exceed 64% within 60 min reaction time when the catalyst loading is 50%. The XRD results indicate that as the hydrogasification proceeds, the catalyst is deactivated by reacting with the ash in coal, and the unreacted carbon in PZ coal is gradually transformed into less active graphite, resulting in a lower gasification rate at later reaction time. The ratio of water-soluble potassium to water-insoluble but acid-soluble potassium in the hydrogasification residue is closely related to the catalytic activity. When the catalyst loading is less than 20%, the high content ash in PZ coal will deactivate most of the loaded KOH, leading to a slow hydrogasification rate.
- catalytic hydrogasification,
- potassium hydroxide,
- fix-bed reactor,
- water-soluble potassium,
- acid-soluble potassium

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References(14)

References

李保庆. 煤加氢热解研究: Ⅰ宁夏灵武煤加氢热解的研究[J]. 燃料化学学报, 1995, 23(1): 57-61. (LI Bao-qing. Hydropyrolysis of Chinese coals:ⅠHydropyrolysis of Lingwu bituminous coal[J]. Journal of Fuel Chemistry and Technology, 1995, 23(1): 57-61.)

ALEKSANDER K, STANISLAW P. The influence of coal rank on formation of gaseous hydrocarbons in hydrogasification of coal[J]. Fuel, 1996, 75(5): 641-645.

HAGA T, NISHIYAMA Y. Promotion of iron-group catalysts by a calcium salt in hydrogasification of coal chars[J]. Ind Eng Chem Res, 1989, 28(6): 724-728.

KOKOROTSIKOSA P S, STAVROPOULOSA G G, SAKELLAROPOULOSA G P. Effect of catalyst impregnation conditions on Greek lignite hydrogasification[J]. Fuel, 1986, 65(10): 1462-1465.

何涛, 马晓迅, 罗进成, 曹彬, 徐龙. 铜川煤催化加氢热解行为的研究[J]. 煤炭转化, 2008, 31(2): 4-7. (HE Tao, MA Xiao-xun, LUO Jin-cheng, CAO Bin, XU Long. Study on catalytic hydropyrolysis of Tongchuan coal [J]. Coal Conversion, 2008, 31(2): 4-7.)

杨景标, 蔡宁生, 李振山. 几种金属催化褐煤焦水蒸气气化的实验研究[J]. 中国电机工程学报, 2007, 27(26): 7-12. (YANG Jing-biao, CAI Ning-sheng, LI Zhen-shan. Experimental study on steam gasification of lignite char catalyzed by several metals[J]. Proceedings of the CSEE, 2007, 27(26): 7-12.)

庞克亮, 向文国, 赵长遂, 奚白. 钾盐对煤焦—CO₂气化反应特性的影响[J]. 燃烧科学与技术, 2007, 13(1): 63-66. (PANG Ke-liang, XIANG Wen-guo, ZHAO Chang-sui, XI Bai. Gasification of coal char-CO₂ in the presence of potash [J]. Journal of Combustion Science and Technology, 2007, 13(1): 63-66.)

FORMELLA K, LEONHARDT P, SULIMMA A, van HEEK K-H,JUNTGEN H.Interaction of mineral matter in coal with potassium during gasification[J]. Fuel, 1986, 65(10): 1470-1472.

卫小芳, 黄戒介, 房倚天, 王洋. 外加NaCl和NaAc褐煤在气化过程中钠的形态变迁规律研究[J]. 燃料化学学报, 2009, 37(1): 6-10. (WEI Xiao-fang, HUANG Jie-jie, FANG Yi-tian, WANG Yang. Transformation of sodium during gasification of a lignite with addition of NaCl and NaAc[J]. Journal of Fuel Chemistry and Technology, 2009, 37(1): 6-10.)

洪诗捷, 张济宇, 黄文沂, 林驹, 林诚. 工业废液碱对福建无烟煤水蒸气催化气化的实验室研究[J]. 燃料化学学报, 2002, 30(6): 481-486. (HONG Shi-jie, ZHANG Ji-yu, HUANG Wen-yi, LIN Ju, LIN Cheng. Experimental study on catalytic gasification of Fujian anthracite with steam using industrial waste liquor alkalis[J]. Journal of Fuel Chemistry and Technology, 2002, 30(6): 481-486.)

BRUNO G, BURONI M. Water-insoluble compounds formed by reaction between potassium and mineral matter in catalytic coal gasification[J]. Fuel, 1988, 67(1): 67-72.

杨景标, 蔡宁生, 张彦文. 催化剂添加量对褐煤焦水蒸气气化反应性的影响[J]. 燃料化学学报, 2008, 36(1): 15-22. (YANG Jing-biao, CAI Ning-sheng, ZHANG Yan-wen. Effect of catalyst loadings on the gasification reactivity of a lignite char with steam[J]. Journal of Fuel Chemistry and Technology, 2008, 36(1): 15-22.)

杨帆, 周志杰, 王辅臣, 刘海峰, 龚欣, 于遵宏. 氢气存在下的煤焦水蒸气气化: I反应特性研究[J]. 燃料化学学报, 2009, 37(1): 36-41. (YANG Fan, ZHOU Zhi-jie, WANG Fu-chen,LIU Hai-feng,GONG Xin,YU Zun-hong.Coal char gasification with steam and H₂: ⅠThe gasification reaction characteristics[J].Journal of Fuel Chemistry and Technology, 2009, 37(1): 36-41.)

田承圣, 曾凡桂. 镜煤与丝炭结构的X射线衍射初步分析[J]. 太原理工大学学报, 2001, 32(2): 102-105. (TIAN Cheng-sheng, ZENG Fan-gui. Analysis of structure between vitrain and fusain X-ray diffraction analysis[J]. Journal of Taiyuan University of Technology, 2001, 32(2): 102-105.)

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