TABIIY GAZNI TOZALASHDA ADSORBSION USULLAR BILAN CO2 AJRATISHNI EKSPERIMENTAL TEKSHIRISH
Keywords:
mikrog‘ovak, adsorbsiya, mikro kanal va kriojenik distillashAbstract
Ushbu tadqiqotda 13X seolit asosidagi hajmli adsorbsion apparatlar yordamida tabiiy gazdan CO2 ni ajratish usullari o‘rganildi. SEM va Micromeritics ASAP 2020 yordamida namunalar tahlil qilinib, ularning mikrog‘ovak tuzilmalari va fazaviy xususiyatlari aniqlandi. Harorat va bosimdagi o‘zgarishlar adsorbsion xususiyatlarga sezilarli ta’sir ko‘rsatdi.
References
Jin HG, Gao L, Han W, Hong H. Prospect options of CO2 capture technology suitable for China. Energy 2010;35:4499-506.
Cheung O, Bacsik Z, Liu QL, Mace A, Hedin N. Adsorption kinetics for CO2 on highly selective seolites NaKA 2013;112:1326-36, and nano-NaKA. Appl Energy
BP. Energy outlook 2030; 2013.
Mukhtor, M., & Bobojon, J. (2024). THE MAIN DIRECTIONS OF WORK ON IMPROVING TECHNOLOGY FOR THE PREVENTION OF THE FORMATION OF MAN-MADE HYDRATE. Universum: технические науки, 12(11 (128)), 21-22.
Maxmudov, M., & Jumaboyev, B. (2024). Gaz sanoati tеxnologik tizimlarida gaz gidratlarining hosil bo ‘lishini oldini olish va tabiiy gazlarni quritishning istiqbolli yo ‘nalishlari. YASHIL IQTISODIYOT VA TARAQQIYOT, 2(3).
MJ, M., & Jumaboev, B. O. (2024). THE MAIN DIRECTIONS OF WORK ON IMPROVING TECHNOLOGY FOR THE PREVENTION OF THE FORMATION OF MAN-MADE HYDRATE. Химическая технология, 49(11), 128.
Demierre J, Bazilian M, Carbajal J, Sherpa S, Modi V. Potential for regional use of East Africa's natural gas. Appl Energy 2015;143:414-36.
Zhang XC, Myhrvold NP, Hausfather Z, Caldeira K. Climate benefits of natural gas as a bridge fuel and potential delay of near-zero energy systems. Appl Energy 2016;167:317-22.
