REFORMING OF n-HEXANE OVER Pt-TIN SILICALITE-1

机译：铂锡SILICALITE-1上正己烷的重整

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The catalytic behavior of Pt supported on non-acidic silicalite-1 (MFI structure) and on the stannosilicate, Sn-sil-1 molecular sieves in the aromatization of n-hexane is investigated. The influence of Pt content, temperature, space velocity, H_2-hexane ratio and time on stream (TOS) on the n-hexane conversion, aromatic selectivity and aromatic yield are presented. Aromatics are the main products and this suggests that the aromatization proceeds via dehydrocyclization and/or hydrogenolysis, dehydrogenation to C_2-C_4 olefins followed by oligomerization inside the pores of the molecular sieve into cyclic intermediates in presence of hydrogen. The incorporation of Pt during the synthesis of the stannosilicate (Sn-sil-1) yields a more active catalyst (42 wt% aromatic selectivity) without any deactivation than when Pt is loaded by impregnation on Sn-sil-1 because catalyst deactivation associate with platinum outside the zeolite pores. A formation mechanism is proposed.

机译：研究了负载在非酸性silicalite-1（MFI结构）和锡硅酸盐，Sn-sil-1分子筛上的Pt在正己烷芳构化中的催化行为。提出了Pt含量，温度，空速，H_2 /正己烷比和时间对物流（TOS）的影响，对正己烷转化率，芳烃选择性和芳烃收率有影响。芳族化合物是主要产物，这表明芳构化通过脱氢环化和/或氢解，脱氢成C_2-C_4烯烃，然后在氢存在下在分子筛孔内低聚为环状中间体而进行。锡硅酸锡（Sn-sil-1）合成过程中掺入Pt产生的催化剂活性更高（芳烃选择性为42 wt％），而与通过浸渍在Sn-sil-1上负载Pt相比，它没有任何失活，因为催化剂失活与铂在沸石孔的外面。提出了一种形成机理。

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来源
《International Zeolite Conference pt.C; 20040425-30; Cape Town(ZA)》|2004年|P.2403-2410|共8页
会议地点 Cape Town(ZA)
作者
Mal; N.K.; Sasidharan; M.; Matsukata; M.; Sivasanker; S.; Raniaswamy; A.V.;
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作者单位

AIST, Kansai, 1-8-31 Midorigaoka, Ikeda, Osaka 563-8577, Japan;

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会议组织
原文格式 PDF
正文语种 eng
中图分类沸石族;
关键词
microporous; tin-silicate; reforming of n-hexane; Pt-containing molecular sieves;

机译：微孔;硅酸锡;正己烷重整;含铂分子筛;

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1. Pt supported on Zn modified silicalite-1 zeolite as a catalyst for n-hexane aromatization [J] . Guodong Liu, Jiaxu Liu, Ning He, 天然气化学（英文版） . 2019,第007期

机译：负载在锌改性的silicalite-1沸石上的铂作为正己烷芳构化的催化剂
2. Pt supported on Zn modified silicalite-1 zeolite as a catalyst for n-hexane aromatization [J] . Guodong Liu, Jiaxu Liu, Ning He, 能源化学：英文版 . 2019,第007期

机译：负载在锌改性的silicalite-1沸石上的铂作为正己烷芳构化的催化剂
3. Investigation of molecular mobility and exchange of n-hexane and water in silicalite-1 by 2D 1 H NMR relaxometry [J] . B.I. Gizatullin, A.V. Savinkov, T.V. Shipunov, Magnetic resonance in solids . 2018,第1期

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4. MODELLING OF n-HEXANE AND 3-METHYLPENTANE PERMEATION THROUGH A SILICALITE-1 MEMBRANE [C] . Zhu, W., Hrabanek, International Zeolite Conference pt.B; 20040425-30; Cape Town(ZA) . 2004

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5. I. Patterning of silicalite-1 films using CO2 laser ablation II. Impact of deposition and laser densification of silicalite-1 films on their optical characteristics. [D] . Mandal, Swarnasri. 2015

机译：I.使用CO 2激光烧蚀对silicalite-1膜进行构图II。 Silicalite-1薄膜的沉积和激光致密化对其光学特性的影响。
6. Neurotoxic effects of n-hexane on the human central nervous system: evoked potential abnormalities in n-hexane polyneuropathy. [O] . Y C Chang 1987

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7. Pt supported on Zn modified silicalite-1 zeolite as a catalyst for n-hexane aromatization [O] . Guodong Liu, Jiaxu Liu, Ning He, 2019

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REFORMING OF n-HEXANE OVER Pt-TIN SILICALITE-1

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