Metandan vodorod va uglerod olish jarayoni hamda texnalogiyasi

Автор: Usmonov I., Fayzullayev N.I., Xolmirzayeva H.N.

Журнал: Экономика и социум @ekonomika-socium

Рубрика: Основной раздел

Статья в выпуске: 5-1 (96), 2022 года.

Бесплатный доступ

Vodorod iqtisodiyoti kelajakdagi energiya tizimlarida asosiy rol o'ynaydi. Vodorod ishlab chiqarishning bir qancha termal va katalitik usullari taqdim etilgan. Ushbu maqolada metanning vodorod gazi va qattiq uglerodga termokatalitik va termal parchalanishi ko'rib chiqiladi. Metanning termal parchalanishi (MTP) va metanning termokatalitik parchalanishi (MTK) deb nomlanuvchi bu jarayonlar vodorod ishlab chiqarish uchun eng katta imkoniyatlarga ega. Xususan, asosiy e'tibor parchalanish jarayonlarida hosil bo'ladigan uglerodlarning har xil turlari va xususiyatlariga qaratiladi.

Metan, vodorod, uglerod, katalitik parchalanish, vodorod iqtisodiyoti

Короткий адрес: https://sciup.org/140293001

IDR: 140293001

Список литературы Metandan vodorod va uglerod olish jarayoni hamda texnalogiyasi

  • European Comission. A Hydrogen Strategy for a Climate-Neutral Europe; European Commission: Brussels, Belgium, 2020.
  • Yang, L.; Liu, F.; He, J. Natural Sand as a Non-Conventional Catalyst for Hydrogen Production by Methane Thermo-Catalytic Decomposition. Int. J. Hydrogen Energy 2019, 44, 11625–11633.
  • Gamal, A.; Eid, K.; El-Naas, M.H.; Kumar, D.; Kumar, A. Catalytic Methane Decomposition to Carbon Nanostructures and Cox-Free Hydrogen: A Mini-Review. Nanomaterials 2021, 11, 1226.
  • Chen, L.; Qi, Z.; Zhang, S.; Su, J.; Somorjai, G.A. Catalytic Hydrogen Production from Methane: A Review on Recent Progress and Prospect. Catalysts 2020, 10, 858.
  • Hilola N. Xolmirzayeva1, Normurot I. Fayzullayev2 Obtaining Nanocarbon from Local Raw Materials and Studying Its Textural and Sorption Properties//IJETT, 70(2), 2022, 163-171
  • Fayzullaev, N.I, Bobomurodova, S.Y, Xolmuminova, D.A.//Physico-chemical and texture characteristics of Zn-Zr/VKTS catalyst. Journal of Critical Reviews, 2020, 7(7), стр. 917–920.
  • Mamadoliev, I.I., Fayzullaev, N.I.Optimization of the activation conditions of high silicon zeolite//International Journal of Advanced Science and Technology, 2020, 29(3), стр. 6807–6813.
  • Fayzullaev N.I., Kholmirzaeva H.N. Synthesis And Study Of High - Silicon Zeolites From Natural Bentonite//Solid State Technology, 2020, 63(6), 3448-3459
  • Hilola N. Xolmirzayeva Characteristics of the Fe2(MoO4)3*MoO3 catalyst used in the synthesis of nanocarbons from methane// ACADEMICIA: An International Multidisciplinary Research Journal, 2021, 598-605
  • Tursunova, N.S., Fayzullaev, N.I. Kinetics of the reaction of oxidative dimerization of methane//International Journal of Control and Automation, 2020, 13(2), стр. 440–446
  • N.I. Fayzullaev., Sh.B. Rakhmatov. kinetics and mechanism of the reaction of the catalytic oxycondensation reaction of methane. //Austrian Journal of Technical and Natural Sciences 2019 y. № 5 - 6. -P 62 – 68.
  • Tursunova, N.S., Fayzullaev, N.I. Kinetics of the reaction of oxidative dimerization of methane//International Journal of Control and Automation, 2020, 13(2), стр. 440–446.
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