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高效复合ReY沸石分子筛的合成研究

Synthesis of High Performance Composite ReY Molecular Sieve
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摘要 以水玻璃中的硅作为主要硅源,采用导向剂法首先合成出NaY分子筛。导向剂配比为m(Na_2O):m(Al_2O_3):m(SiO_2):m(H_2O)=16:1:15:300、晶化时间20 h时,生成的NaY分子筛的结晶度最高(90%),比表面积也最大(712 m^2/g)。然后将氯化稀土与得到的NaY分子筛进行离子交换,将分子筛中的Na^+交换出来,从而使分子筛中的Na^+含量降到最低。氯化稀土与NaY分子筛质量比为0.207时,交换效率达到最大;交换时混合溶液的温度对离子交换的影响不大。最终得到的ReY分子筛具有高吸附催化性能。 NaY molecular sieve was synthesized using silicon in water glass as the main silicon source by the directing agent method. When the composition of the directing agent was m (Na2O): m (Al2O3): m(SiO2): m(H2O) = 16: 1: 15:300 and crystallization time reached 20 h, the obtained NaY molecular had the highest crystaUinity(90%) and the largest special surface area(712 m^2/g). Then NaY molecular sieve exchanged cations with rare -earth chloride, which Na^+ were exchanged from NaY, so that the Na^+ content in NaY was up to minimum. The efficiency of the exchange was up to maximum when the mass ratio of rare earth chloride to NaY molecular sieve was 0. 207, and the temperature of mixed solution hadn' t observably effect to the ion -exchange. The ReY molecular sieve was synthesized with high absorption and catalytic performances.
作者 王素莉 李惠萍 孙志昂 李晓东 张丽
机构地区 郑州大学化工学院 中国长城铝业公司
出处 《精细石油化工进展》 CAS 2009年第2期22-24,28,共4页 Advances in Fine Petrochemicals
关键词 ReY沸石分子筛 NAY分子筛 导向剂 晶化 离子交换 ReY molecular sieve, NaY molecular sieve, directing agent, crystallization, ion exchange
分类号 TQ424.25 [化学工程] TQ085.4 [化学工程]
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参考文献8

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精细石油化工进展
2009年 第2期

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