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纳米碳纤维合成催化剂的停留时间分布特征

Characteristics of residence time distribution of carbon nanofibers synthesis catalyst
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摘要 利用搭建的回转窑冷模模型,考察了回转窑反应器的转速和倾斜高度对纳米碳纤维(CNFs)合成催化剂停留时间分布的影响。利用Sigmoid函数C对实验数据进行数值模拟,得到了不同转速和倾斜高度下的催化剂停留时间分布函数和参数数值。结果表明:催化剂平均停留时间在转速较低和较高时都随倾斜高度线性递减,并且转速较高时递减速率较快,在回转窑倾斜高度一定时,催化剂平均停留时间与转速成反比关系。在回转窑转速一定时,回转窑倾斜度越高,催化剂停留时间分布密度越集中,反之,则越分散;在回转窑倾斜高度一定时,回转窑转速越高,催化剂停留时间分布密度越集中,反之,越分散。 The effects of rotary kiln inclination height at both high and low rotating rates on the residence time of catalyst are studied. The catalyst residence time distribution function and parameters value with different speed and slope height are obtained by simulating experimental data using the function of Sigmoid (C). The results indicate that the average residence time of catalyst in the rotary kiln decreases linearly with the increase of inclination height at both high and low rotating rates. The average residence time decreases faster at high rotating rate then slower at a low rotating rate. At different inclination heights, the average residence time of catalyst is inversely proportional to the rotating rate. The distribution density of residence time becomes more concentrated as the rotate speed and the inclination height increase, and the converse is also true.
作者 卢文新 周兴贵 隋志军 陈风敬 徐建民 夏吴
机构地区 中国五环工程有限公司技术开发研究院 华东理工大学化学工程联合国家重点实验室
出处 《化学工程》 CAS CSCD 北大核心 2017年第11期17-22,共6页 Chemical Engineering(China)
关键词 回转窑 反应器 纳米碳纤维 催化剂 停留时间分布 数值模拟 rotary kiln reactor carbon nanofibers catalyst residence time distribution numerical simulation
分类号 O643.36 [理学—物理化学] TQ342.742 [化学工程—化纤工业]
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  • 1Levy R B, Boudart M. Platinum-like behavior of tungsten carbide in surface catalysis [J]. Science, 1973, 181(4099): 547-548.
  • 2Rodrigues J A J, Cruz G M, Bugli G, Boudart M, Djega-Mariadassou G. Nitride and carbide of molybdenum and tungsten as substitutes of iridium for the catalysts used for space communication [J]. Catalysis Letters, 1997, 45(1/2): 1-3.
  • 3Chen X W, Zhang T, Ying P L, Zheng M Y, Wu W C, Xia L G, Li T, Wang X D, Li C. A novel catalyst for hydrazine decomposition: molybdenum carbide supported on gamma-Al2O3 [J]. Chemical Communications, 2002, 3: 288-289.
  • 4Vieira R, Pham-Huu C, Keller N, Ledoux M J. New carbon nanofiber/graphite felt composite for use as a catalyst support for hydrazine catalytic decomposition [J]. Chemical Communications, 2002, 3: 954-955.
  • 5Vieira R, Bernhardt P, Ledoux M, Pham-Huu C. Performance comparison of Ir/CFF and Ir/Al2O3 catalysts in a 2 N hydrazine microthruster [J]. Catalysis Letters, 2005, 99(3/4): 177-180.
  • 6Vieira R, Bastos-Netto D, Ledoux M, Pham-Huu C. Hydrazine decomposition over iridium supported on carbon nanofibers composite for space applications: near actual flight conditions tests [J]. Applied Catalysis A: General, 2005, 279(1/2): 35-40.
  • 7Pham-Huu C, Keller N, Roddatis V V, Mestl G, Schl?gl R, Ledoux M J. Large scale synthesis of carbon nanofibers by catalytic decomposition of ethane on nickel nanoclusters decorating carbon nanotubes [J]. Physical Chemistry Chemical Physics, 2002, 4(3): 514-521.
  • 8Liang C H, Tian F P, Feng Z C, Wei Z B, Li C. Preparation and adsorption properties for thiophene of nanostructured W2C on ultrahigh-surface-area carbon materials [J]. Chemistry of Materials, 2002, 15(25): 4846-4853.
  • 9Park H, Kim M H, Hwang Y K, Chang J S, Kwon Y U. Sonochemical syntheses and catalytic properties of oxide and carbide nanocomposites on carbon nanotubes [J]. Chemisty Letters, 2005, 34(2): 224-223.
  • 10Yang Z H, Cai P J, Shi L Gu Y L, Chen L Y, Qian Y T. A facile preparation of nanocrystalline Mo2C from graphite or carbon nanotubes [J]. J. Solid State Chemistry, 2006, 179(1): 29-32.

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化学工程
2017年 第11期

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