PHYSICO-CHEMICAL FEATURES OF AROMATIZATION OF LOWER ALKANE С3 – С4 ON HIGH SILICA ZEOLITE CATALYSTS MODIFIED WITH Zn, LA AND P ADDITIVES

Neft i gaz Pub Date : 2022-12-30 DOI:10.37878/2708-0080/2022-6.12

A. Temirova

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Abstract

The physicochemical characteristics of zeolite-containing catalysts modified by the introduction of zinc, lanthanum and phosphorus, as well as their activity in the aromatization of propane-butane fractions, have been studied. The maximum amount of aromatic hydrocarbons (43.6%) in the processing of the propane-butane fraction is formed on the Zn-La-P-ZSM-Al2 O3 catalyst at 500 °C, while the selectivity for aromatic hydrocarbons is 80.0%. When processing the propane- propylene fraction in the temperature range of 400-600°C, the yield of aromatic hydrocarbons on the Zn-La-P-ZSM-Al2O3 catalyst is significantly higher compared to other studied catalysts. The activity of catalysts in the processing of light hydrocarbons mainly depends on the structure and state of active centers and the conditions of the process. The results of the study of catalysts by electron microscopy and thermal desorption of ammonia showed that acid sites coexist with metal sites on the surface of the developed catalysts. The composition of acid sites can include metals in various degrees of oxidation, fixed both inside the zeolite cavities and on their outer side. The most active, stable KTG-4 catalyst (Zn-La-P-ZSM-Al2 O3 ) is recommended for pilot testing at gas and oil refineries when processing propane-butane fraction and gases released during catalytic cracking into aromatic hydrocarbons.

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Zn、LA和P改性高硅沸石催化剂上低烷烃芳构化С3 - С4的物理化学特性

研究了锌、镧、磷改性的含沸石催化剂的理化性质及其在丙烷-丁烷馏分芳构化反应中的活性。在500℃的zn - la - p - zsm - al2o3催化剂上，丙烷丁烷馏分的芳香烃生成量最大，为43.6%，芳香烃的选择性为80.0%。在400 ~ 600℃范围内处理丙烷-丙烯馏分时，Zn-La-P-ZSM-Al2O3催化剂上芳烃的产率明显高于其他催化剂。轻烃加工过程中催化剂的活性主要取决于活性中心的结构和状态以及加工条件。对催化剂的电镜和氨热解吸研究结果表明，所研制的催化剂表面酸位与金属位共存。酸位的组成可以包括不同程度氧化的金属，固定在沸石腔的内部和外部。最活跃、最稳定的KTG-4催化剂(zn - la - p - zsm - al2o3)被推荐用于天然气和炼油厂在处理丙烷-丁烷馏分和催化裂化过程中释放的气体时进行中试。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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