KREMNIYLI SEOLITLARDA N-GEKSANNI AROMATLASH

Rahmatov Xudoyor Boboniyozovich; Abdullayev Baxtishod Mengliqul o'g'li; Uzoqov Elyor Ulug'bek o'g'li; Maxsetov Bekzat Rustem uli

doi:10.70769/3030-3214.SRT.3.1.2025.29

Ushbu maqolada yuqori katalitik xususiyatga ega bo‘lgan mezog‘ovakli yuqori kremniyli tseolitlar yordamida chiziqli tuzilishga ega bo‘lgan N-geksanni katalitik aromatlash jarayoni o‘rganilgan. Tadqiqotda katalizator sifatida qo‘llanilgan Ni, Cu va Fe modifikatorlarining tabiati va konsentratsiyasining katalitik faollikka ta’siri tahlil qilingan. Tadqiqot natijalari aromatlash jarayoni samaradorligini oshirish va benzol qatori uglevodorodlarining tarkibini optimallashtirishga imkon beradi.

Jurnal nomiSanoatda raqamli texnologiyalar ilmiy-texnik jurnal
Nashr soni3(1)
Ko'rishlar soni 12

Internet havola https://srt-journal.uz/ojs/index.php/SRT/article/view/127

DOI10.70769/3030-3214.SRT.3.1.2025.29

UzSCI tizimida yaratilgan sana 28-03-2025

O'qishlar soni 12

Nashr sanasi 22-03-2025

Asosiy tilO'zbek

Sahifalar186-189

Kalit so'z

konversiya

mezog‘ovak

oktan soni

aromatlash

alyumosilikat

vodorod

Ўзбек

Ushbu maqolada yuqori katalitik xususiyatga ega bo‘lgan mezog‘ovakli yuqori kremniyli tseolitlar yordamida chiziqli tuzilishga ega bo‘lgan N-geksanni katalitik aromatlash jarayoni o‘rganilgan. Tadqiqotda katalizator sifatida qo‘llanilgan Ni, Cu va Fe modifikatorlarining tabiati va konsentratsiyasining katalitik faollikka ta’siri tahlil qilingan. Tadqiqot natijalari aromatlash jarayoni samaradorligini oshirish va benzol qatori uglevodorodlarining tarkibini optimallashtirishga imkon beradi.

Kalit so'z

konversiya

mezog‘ovak

oktan soni

aromatlash

alyumosilikat

vodorod

Русский

В данной статье изучен процесс каталитической ароматизации N-гексана линейной структуры с использованием мезопористых высококремниевых цеолитов с высокими каталитическими свойствами. Проанализировано влияние природы и концентрации модификаторов (Ni, Cu, Fe) на каталитическую активность. Полученные результаты позволяют повысить эффективность процесса ароматизации и оптимизировать состав углеводородов бензольного ряда.

Kalit so'z

конверсия

ароматизация

водород

октановое число

мезозой

алюмосиликат

English

This article studies the catalytic aromatization process of linear-structured N-hexane using mesoporous high-silicon zeolites with high catalytic properties. The influence of the nature and concentration of modifiers (Ni, Cu, Fe) on catalytic activity has been analyzed. The obtained results contribute to improving the efficiency of the aromatization process and optimizing the composition of benzene-series hydrocarbons.

Kalit so'z

conversion

hydrogen

aromatization

octane number

aluminosilicate

Mesozoic

№ Muallifning F.I.Sh. Lavozimi Tashkilot nomi

1 Rahmatov X.B. Professor Qarshi davlat texnika universiteti

2 Abdullayev B.M. Assistent Qarshi davlat texnika universiteti

3 Uzoqov E.U. magistrant Qarshi davlat texnika universiteti

4 Maxsetov B.R. magistrant Qarshi davlat texnika universiteti

№ Havola nomi

1 1. Fayzullayev, N. I., R. R. Umirzakov, and S. B. Pardaeva. "Study of acetylating reaction of acetylene by gas chromatographic method." ACS National Meeting Book of Abstracts. 2005.

2 2. Fayzullayev, N. I., and R. R. Umirzakov. "To obtain acetone by spontaneous hydration of acetylene." ACS National Meeting Book of Abstracts. 2005.

3 3. Buronov, F., & Fayzullayev, N. (2022, June). Synthesis and application of high silicon zeolites from natural sources. In AIP Conference Proceedings (Vol. 2432, No. 1). AIP Publishing.

4 4. Buronov, F. E., & Fayzullaev, N. I. (2023). Mathematical modeling of ethylene oxidative acetylation process. In E3S Web of Conferences (Vol. 411, p. 01037). EDP Sciences.

5 5. Aslanov, S.C., Buxorov, A.Q., Fayzullayev, N.I. Catalytic synthesis of С2-С4-alkenes from dimethyl ether// International Journal of Engineering Trends and Technology, 2021, 69(4), стр. 67–75.

6 6. X.B.Rahmatov, A.B.Togayev Study of the kinetics of the reaction of high molecular hydrocarbons with synthesis gas // European Chemical Bulletin Eur. Chem. Bull. 2023, 12(Special Issue 4), pp.14456-14462.

7 7. Х.Б.Рахматов, А.И.Тогаев Исследование кинетики реакции высокомолекулярных углеводородов с синтез-газом // UNIVERSIUM: технические науки : электрон. научн. журнал. 2023. 12(117).

8 8. Abdullaev, B. M., & Sayfullaev, T. K. (2024). Cobalt fischer–tropsch catalyst regeneration. journal of multidisciplinary bulletin, 7(1), 105-113.

9 9. Bakhtishod, A., & Temurbek, S. (2024). EFFECT OF INITIAL SOLVENT SLURRY INSIDE THE REACTOR FOR FISCHER-TROPSCH SYNTHESIS. Sanoatda raqamli texnologiyalar/Цифровые технологии в промышленности, 2(1), 171-180.

10 10. Abdullayev, K. O. A. I. (2023). Research of the catalytic properties of a catalyst selected for the production of high-molecular weight liquid synthetic hydrocarbons from synthesis gas. Химическая технология, 14(10), 115.

Kutilmoqda

№	Muallifning F.I.Sh.	Lavozimi	Tashkilot nomi
1	Rahmatov X.B.	Professor	Qarshi davlat texnika universiteti
2	Abdullayev B.M.	Assistent	Qarshi davlat texnika universiteti
3	Uzoqov E.U.	magistrant	Qarshi davlat texnika universiteti
4	Maxsetov B.R.	magistrant	Qarshi davlat texnika universiteti

№	Havola nomi
1	1. Fayzullayev, N. I., R. R. Umirzakov, and S. B. Pardaeva. "Study of acetylating reaction of acetylene by gas chromatographic method." ACS National Meeting Book of Abstracts. 2005.
2	2. Fayzullayev, N. I., and R. R. Umirzakov. "To obtain acetone by spontaneous hydration of acetylene." ACS National Meeting Book of Abstracts. 2005.
3	3. Buronov, F., & Fayzullayev, N. (2022, June). Synthesis and application of high silicon zeolites from natural sources. In AIP Conference Proceedings (Vol. 2432, No. 1). AIP Publishing.
4	4. Buronov, F. E., & Fayzullaev, N. I. (2023). Mathematical modeling of ethylene oxidative acetylation process. In E3S Web of Conferences (Vol. 411, p. 01037). EDP Sciences.
5	5. Aslanov, S.C., Buxorov, A.Q., Fayzullayev, N.I. Catalytic synthesis of С2-С4-alkenes from dimethyl ether// International Journal of Engineering Trends and Technology, 2021, 69(4), стр. 67–75.
6	6. X.B.Rahmatov, A.B.Togayev Study of the kinetics of the reaction of high molecular hydrocarbons with synthesis gas // European Chemical Bulletin Eur. Chem. Bull. 2023, 12(Special Issue 4), pp.14456-14462.
7	7. Х.Б.Рахматов, А.И.Тогаев Исследование кинетики реакции высокомолекулярных углеводородов с синтез-газом // UNIVERSIUM: технические науки : электрон. научн. журнал. 2023. 12(117).
8	8. Abdullaev, B. M., & Sayfullaev, T. K. (2024). Cobalt fischer–tropsch catalyst regeneration. journal of multidisciplinary bulletin, 7(1), 105-113.
9	9. Bakhtishod, A., & Temurbek, S. (2024). EFFECT OF INITIAL SOLVENT SLURRY INSIDE THE REACTOR FOR FISCHER-TROPSCH SYNTHESIS. Sanoatda raqamli texnologiyalar/Цифровые технологии в промышленности, 2(1), 171-180.
10	10. Abdullayev, K. O. A. I. (2023). Research of the catalytic properties of a catalyst selected for the production of high-molecular weight liquid synthetic hydrocarbons from synthesis gas. Химическая технология, 14(10), 115.