ETILEN QATORI UGLEVODORODLARINI MONOXLORMETANDAN SINTEZ QILISH

  • Normurot FAYZULLAYEV Sharof Rashidov nomidagiSamarqand davlat universiteti professori, Polimerlar kimyosi va kimyoviy texnologiya kafedrasi mudiri,
  • Jonibek JAVHAROV Samarqand davlat universitetining Kattaqo‘rg‘on filiali Aniq va tabiiy fanlar kafedrasi o’qituvchisi
  • Nurbek ERGASHEV Samarqand davlat universitetining Kattaqo‘rg‘on filiali Aniq va tabiiy fanlar kafedrasi o’qituvchisi.
##plugins.pubIds.doi.readerDisplayName##: https://doi.org/10.69617/uzmu.v3i3.1.1891
"Kalit so‘zlar" : metan, etilen, propilen, piroliz, monoxlormetan, silikoalyuminomagniyfosfat, vodorod xlorid, oksixlorlash.

"Maqola"

Ishda metilxloridning piroliz jarayoni uchun olingan katalizatorlarning termal tahlili Q-1500D derivatografida o‘tkazildi. Namunalarning g‘ovak tuzilishi NOVA 1200 E moslamasida past haroratli azot adsorbsiyasi usuli bilan o‘rganildi. Namunalarning o‘ziga xos yuzasi BET usuli bilan o‘rtacha mezog‘ovak kattaligi esa BJH usuli bilan ishlab chiqilgan. Asosiy mahsulotlar C2-C4 to‘yinmagan uglevodorodlardir. Qo‘shimcha mahsulotlar kam bo‘lib asosan to‘yingan ochiq zanjirli uglevodorodlar (C1-C4) ham hosil bo‘ldi. Jarayonni amalga oshirish uchun YuKS,  Fe2O3 (YuKSFe), SiO2 (YuKSSi), (YuKSMg) kabi katalizatorlarning faolligi o‘rganildi va aktivlik bo‘yicha quidagi ketma-ketlik aniqlandi: YuKSMg > YuKSFe > YuKSSi > YuKS. Tadqiqotlar natijasida jarayonni amalga oshirish uchun monoxlormetan ishlab chiqarish va etilen va propilen olishning texnologik sxemasi tuzildi va natijalar tahlili olib borildi.

References

1. Treger Yu.A., Rozanov V.N. Polucheniye xlororganicheskix soyedineniy na osnoveodnouglerodnыx molekul. // Uspexi ximii, 1989. -T. 58. -V.1. -S. 138.
2. Rozanov V.N., Treger Yu.A. Razrabotka prosessov polucheniya xlormetanov.// Nauchnыye trudы NII «Sintez». -M., 1996. -S. 176.
3. Chen J.Q., Vora B.V. Most recent developments in ethylene and propylene production from natural gas using the UOP/Hydro MTO process. // 7th Natural Gas conversion Symposium. Dalian, China, June 6-10. -2004. -abs. 1-01-071.
4. Zhao T-S., Takemoto T., Tsubaki N. Direct synthesis of propylene and light olefins from dimethyl ether catalyzed by modified H-ZSM-5//Catalysis Communications.-2006.-V.7.-P. 647.
5. Shevchuk V.U., Abadjev S.S., Pzix I.P., Krupey T.I. Polucheniye nepredelnыx uglevodorodov iz metana cherez metilxlorid. // Ximiya tverdogo topliva. -1993. -№ 2. -S. 89.
6. Treger Yu.A., Rozanov V.N., Timoshenko A.V. Polucheniye nizshix olefinov iz prirodnogo gaza cherez sintez i piroliz xloristogo metila // Gazoximiya, 2010, № 2. S. 44–50.
7. Wei Y., Zhang D., Liu Z., Su B-L. Highly efficient catalytic conversion of chloromethane to light olefins over HSAPO-34 as studied by catalytic testing and in situ FTIR. //Journal of Catalysis. -2006. -V. 238. -P. 46.
8. Treger Yu.A., Rozanov V.N., Lunkov S.A., Murashova O.P., Dasayeva G.S. Kataliticheskiy piroliz metilxlorida dlya polucheniya etilena i propilena. // Kataliz v promыshlennosti, 2009. -№ 2. -S. 14.
9. Moiseyev I.I. Gaz i etilen. Alternativa nefti – yest // Chem. J. (Ximicheskiy jurnal). 2008. № 4. S. 28–31.
10. Wei Y., Zhang D. Highly efficient catalytic conversion of chloromethane to light olefins over HSAPO-34 as studied by catalytic testing and in situ FTIR // J. Catal. 2006. V. 238. № 1. P. 46–57.
11. Svelle S., Aravinthan S., Bjørgen M., Lillerud K.-P., Kolboe S., Dahl I.M., Olsbye U. The methyl halide to hydrocarbon reaction over H-SAPO-34 // J. Catalysis. 2006. V. 241. № 2. P. 243–254.
12. Wei Y., Zhang D. Methyl halide to olefins and gasoline over zeolites and SAPO catalysts: A new route of MTO and MTG // Chin. J. Catal. 2012. V. 33. № 1. P. 11–21.
13. Wei Y., Zhang D., Xu L., Chang F. Synthesis, characterization and catalytic performance of metal-incorporated SAPO-34 for chloromethane transformation to light olefins // Catalysis Today. 2008. V. 131. P. 262–269.
14. Izadbakhsh A., Farhadi F., Khorasheh F., Sahebdelfar S., Asadi M., Feng Y.Z. // Effect of SAPO-34’s composition on its physico-chemical properties and deactivation in MTO process // Appl. Catal. A:General. 2009. V. 364. P. 48–56
15. Treger Yu.A., Rozanov V.N., Flid M.R. Kataliticheskiy sposob pererabotki metana. // Zayavka № 2008115140/04 (016915) ot 22.04.2008 g.
16. Treger Yu.A., Rozanov V.N., Timoshenko A.V. Polucheniye nizshix olefinov iz prirodnogo gaza cherez sintez i piroliz xloristogo metila // Gazoximiya, 2010, № 2. S. 44–50.
17. Aslanov,S.C.,Buxorov,A.Q.,Fayzullayev,N.I.Catalytic synthesisof С2-С4-alkenes from dimethyl ether//InternationalJournalof Engineering TrendsandTechnology,202,69(4),str.67–75
18. Fayzullaev N. I. et al. Catalytic change of C1-C4-alkanes //International Journal of Control and Automation. – 2020. – T. 13. – №. 2. – S. 827-835.
19. Omanov, B.S., Fayzullaev, N.I., Xatamova, M.S. Vinyl acetate production technology//International Journal of Advanced Science and Technology, 2020, 29(3), str. 4923–4930
20. Tursunova, N.S., Fayzullaev, N.I. Kinetics of the reaction of oxidative dimerization of methane//International Journal of Control and Automation, 2020, 13(2), str. 440–446.
Nashr qilingan
2024-03-30
How to Cite
Normurot FAYZULLAYEV, Jonibek JAVHAROV, & Nurbek ERGASHEV. (2024). ETILEN QATORI UGLEVODORODLARINI MONOXLORMETANDAN SINTEZ QILISH . O‘zMU Xabarlari, 3(3.1), 449-452. https://doi.org/10.69617/uzmu.v3i3.1.1891
Nashr
Jild 3 Son 3.1 (2024): O'zMU XABARLARI (3.1 SONI) 2024
"Bo'lim"
Maqolalar