Synthesis and Application of SAPO-11 Molecular Sieves Prepared from Reaction Gels with Various Templates in the Hydroisomerization of Hexadecane

Among the most selective catalytic systems for the hydroisomerization of C -paraffins, catalytic systems based on SAPO-11 are quite promising. In order to increase the activity and selectivity of these bifunctional catalysts, it is necessary to reduce the diffusion restrictions for the reacting mole...

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Published in:Gels 2024-12, Vol.10 (12), p.792
Main Authors: Serebrennikov, Dmitry V, Zabirov, Arthur R, Saliev, Alexey N, Yakovenko, Roman E, Prosochkina, Tatyana R, Fayzullina, Zulfiya R, Guskov, Vladimir Yu, Kutepov, Boris I, Agliullin, Marat R
Format: Article
Language:English
Subjects:
Aluminum
Aluminum phosphate
Catalysts
Chemical synthesis
Crystal structure
Crystallization
Gels
Hexadecane
Molecular sieves
Molecular weight
Morphology
nanoscale crystals
NMR
Nuclear magnetic resonance
Phosphorus
reaction gels
Selectivity
silicoaluminophosphate SAPO-11
Silicoaluminophosphates
Silicon
Zeolites
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container_end_page
container_issue 12
container_start_page 792
container_title Gels
container_volume 10
creator Serebrennikov, Dmitry V
Zabirov, Arthur R
Saliev, Alexey N
Yakovenko, Roman E
Prosochkina, Tatyana R
Fayzullina, Zulfiya R
Guskov, Vladimir Yu
Kutepov, Boris I
Agliullin, Marat R
description Among the most selective catalytic systems for the hydroisomerization of C -paraffins, catalytic systems based on SAPO-11 are quite promising. In order to increase the activity and selectivity of these bifunctional catalysts, it is necessary to reduce the diffusion restrictions for the reacting molecules and their products in the microporous structure of SAPO-11 by reducing the crystal size. To solve this problem, we have studied the influence of different templates (diethylamine, dipropylamine, diisopropylamine, and dibutylamine) on the physicochemical properties of reaction gels and SAPO-11 silicoaluminophosphates during their crystallization. Using XRD, SEM, and NMR techniques, we found that regardless of the template used, the reaction gel after the aging process at 90 °C is an AlPO ·2H O hydroaluminophosphate. At the same time, the nature of the template affects the morphology and crystal sizes of the intermediate alumophosphate, AlPO ·2H O, and the molecular sieves, SAPO-11. The acidic properties and the porous structure characteristics of SAPO-11 are also affected by the template. A template was proposed to enable the synthesis of nanoscale SAPO-11 crystals. The influence of the morphology and crystal size of SAPO-11 on the catalytic properties of a bifunctional catalyst based on SAPO-11 in the hydroisomerization of hexadecane was investigated.
doi_str_mv 10.3390/gels10120792
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In order to increase the activity and selectivity of these bifunctional catalysts, it is necessary to reduce the diffusion restrictions for the reacting molecules and their products in the microporous structure of SAPO-11 by reducing the crystal size. To solve this problem, we have studied the influence of different templates (diethylamine, dipropylamine, diisopropylamine, and dibutylamine) on the physicochemical properties of reaction gels and SAPO-11 silicoaluminophosphates during their crystallization. Using XRD, SEM, and NMR techniques, we found that regardless of the template used, the reaction gel after the aging process at 90 °C is an AlPO ·2H O hydroaluminophosphate. At the same time, the nature of the template affects the morphology and crystal sizes of the intermediate alumophosphate, AlPO ·2H O, and the molecular sieves, SAPO-11. The acidic properties and the porous structure characteristics of SAPO-11 are also affected by the template. 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subjects Aluminum
Aluminum phosphate
Catalysts
Chemical synthesis
Crystal structure
Crystallization
Gels
Hexadecane
Molecular sieves
Molecular weight
Morphology
nanoscale crystals
NMR
Nuclear magnetic resonance
Phosphorus
reaction gels
Selectivity
silicoaluminophosphate SAPO-11
Silicoaluminophosphates
Silicon
Zeolites
title Synthesis and Application of SAPO-11 Molecular Sieves Prepared from Reaction Gels with Various Templates in the Hydroisomerization of Hexadecane
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