SINTETIK YOQILG‘I OLISH JARAYONIDA HOSIL BO‘LADIGAN QO‘SHIMCHA SUYUQ MAHSULOTLAR ASOSIDA ERITUVCHILAR OLISH TEXNOLOGIYASINI ISHLAB CHIQISH
Keywords:
sintetik yoqilg‘i, LFO, organik erituvchi, rektifikatsiya, GC-MS, texnik-iqtisodiy samaradorlik.Abstract
Mazkur tadqiqot ishida sintetik yoqilg‘i ishlab chiqarish jarayonida hosil bo‘ladigan qo‘shimcha suyuq mahsulotlarning tarkibi chuqur fizik-kimyoviy tahlil qilinib, ular asosida texnik erituvchilar olish texnologiyasi ishlab chiqildi. Tadqiqot davomida gaz xromatografiyasi va mass-spektrometriya (GC-MS) tahlillari asosida qo‘shimcha mahsulot tarkibida metanol, etanol, propanol, butanol va pentanol kabi kislorodli organik birikmalarning mavjudligi aniqlandi. Ushbu komponentlarning yuqori ulushi qo‘shimcha mahsulotlarni kimyo sanoati uchun muhim xomashyo sifatida qayta ishlash imkonini beradi.
Tadqiqot natijalariga ko‘ra, LFO fraksiyasini to‘g‘ridan-to‘g‘ri yoqilg‘i sifatida ishlatish katta ekspluatatsion xarajatlarni talab qilishi, uni erituvchi sifatida qayta ishlash esa yuqori iqtisodiy samaradorlikka ega ekanligi aniqlandi.
Downloads
References
1. LFO tarkibi va energetik tahlil natijalari.
2. GC-MS chromatographic analysis reports.
3. Area Percent Report ma’lumotlari.
4. ASTM D4815 va ASTM D5580 standartlari asosidagi laboratoriya tahlillari.
5. Rakhimov, G. (2023). Qobiq quvurli issiqlik almashinish qurilmalaridagi issiqlik almashinish samaradorligini gidrodinamik parametlariga ta’sirini o‘rganish. Innovatsion texnologiyalar, 51(03), 77-86.
6. Mukherjee R. Practical Thermal Design of Air-Cooled Heat Exchangers. Begell House, 2007.
7. Gangacharyulu D. Air-Cooled Heat Exchangers: Design and Applications.
8. Hudson Products Corporation. Air-Cooled Heat Exchanger Design Guide.
9. API Standard 661. Air-Cooled Heat Exchangers for General Refinery Service.
10. Ajarostaghi S.S. et al. Heat transfer enhancement techniques for heat exchangers. Energies, 2022.
11. Yang L. et al. Thermal performance of air-cooled heat exchangers.
Applied Thermal Engineering, 2020.
12. Wang W. et al. Optimization of finned tube heat exchangers.
Energy Conversion and Management, 2021.
13. Raximov, G. A. B. (2024). Qobiq-quvurlardan foydalangan holda issiqlik almashinish uskunasining samaradorligini oshirish uchun konstruksiyani takomillashtirish. Sanoatda raqamli texnologiyalar, 2(03).
14. Rakhimov, G. B. (2023). Development of anti-detonation additive. Экономика и социум, (12 (115)-1), 604-607.
15. Normurod, F., Sadokat, N., Davron, H., & Ganisher, R. (2024). Catalytic aromanication of propane mixture. Universum: технические науки, 12(11 (128)), 5-8.
16. Bakhtiyorovich, R. G., & Khalmakhmatogli, S. E. (2024). Research of the process of producing alcohols based on by-products obtained in the fischer-tropsch synthesis. Sanoatda raqamli texnologiyalar/Цифровые технологии в промышленности, 2(3), 139-143.
16. Rakhimov, G. B., Buronov, F. E., & Saidov, S. L. (2024). To study the operation of the fractionating apparatus in increasing the efficiency of separation of hydrocarbon fractions.
17. Рахимов, Г. Б. (2024). Изучение влияния эффективности теплообмена в кожухотрубчатого теплообменник на гидродинамические параметры. Экономика и социум, (12-1 (127)), 998-1007.
18. Yuldashev, T. R., Rakhimov, G. B., Bekmurodov, A. A., & Jabborov, N. X. (2024). Increasing the efficiency of cleaning natural gases from sour components. Экономика и социум, (11-1 (126)), 626-631.
19. Rakhimov, G., Kuybokarov, O., & Karshiyev, M. (2024). Research of the catalytic properties of a catalyst selected for the production of high-molecular weight liquid synthetic hydrocarbons from synthesis gas. In E3S Web of Conferences (Vol. 498, p. 01008). EDP Sciences.
