Structural and Catalytic Properties of the Binary Systems Alumina – Amorphous Aluminosilicate

Kataliz v promyshlennosti Pub Date : 2023-01-16 DOI:10.18412/1816-0387-2023-1-6-14

V. Doronin, T. V. Bobkova, T. P. Sorokina, O. Potapenko, A. S. Yurtaeva, N. N. Leontieva, T. Gulyaeva

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Abstract

The amorphous aluminosilicate – alumina systems were examined using various physicochemical methods, including the analysis of 27Al NMR spectra of solid samples, estimation of the catalyst acidity by temperature-programmed desorption of ammonia, investigation of the sample structure by X-ray diffraction analysis, and thermogravimetric analysis of the samples. A study on the catalytic properties of the samples upon cracking on the model feedstock n-dodecane in a mixture with 2-methylthiophene revealed that conversion of the feedstock increases in the series: 100 % Al2O3 (AH) > 70 % Al-Si + 30 % Al2O3 (AH) > 30 % Al-Si + 70 % Al2O3 (AH) > 100 % Al-Si (AH – aluminum hydroxide obtained by sulfate method; Al-Si – amorphous aluminosilicate). An increase in the calcination temperature of the samples from 500 to 700 °C decreases the conversion of the feedstock. The growing contribution of hydrogen transfer reactions leads to an increase in the formation selectivity of hydrogen sulfide and a decrease in the content of sulfur compounds in the liquid products.

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氧化铝-非晶硅酸铝二元体系的结构与催化性能

采用各种物理化学方法，包括固体样品的27Al核磁共振谱分析、氨的程序升温解吸法对催化剂酸度的估计、x射线衍射分析对样品结构的研究以及样品的热重分析，对无定形铝硅酸盐-氧化铝体系进行了研究。对样品在模型原料正十二烷与2-甲基噻吩混合物中裂解的催化性能进行了研究，结果表明，该系列原料的转化率依次提高:100% Al2O3 (AH) > 70% Al-Si + 30% Al2O3 (AH) > 30% Al-Si + 70% Al2O3 (AH) > 100% Al-Si (AH) -硫酸盐法得到的氢氧化铝;Al-Si -无定形铝硅酸盐)。将样品的煅烧温度从500℃提高到700℃会降低原料的转化率。氢转移反应的增加导致硫化氢形成选择性的增加和液体产物中硫化物含量的降低。

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