THE CATALYTICAL OXIDATION OF PROPAN-BUTANE MIXTURE ON THE HYDROGEN AND HYDROGEN СОNTENT COMPOUNDS

Авторы

  • Massalimova Bakytgul Kabykenovna
  • Shorayeva Kamshat Abitkhanovna
  • Naurzkulova Symbat Muratbekovna
  • Jetpіsbayeva Gulіm Danebaevna
  • Altynbekova Dіnara Tansykovna
  • Amanzhol Zhuldyz Erbatyrkyzy
  • Sadykov Vladіslav Alesandrovіch

Ключевые слова:

catalysts, propan-butane mixture, natural clay.

Аннотация

Oxidative conversion of the propane-butane mixture by air into oxygen-containing compositions was
studied. It were determined the optimum reaction temperature, contact time, change in the space velocity in the
process of partial oxidation of C3-C4 hydrocarbons. The physicochemical studies of the initial and treated catalysts
were carried out under experimental conditions. When changing the content of the active component from 1 to 10%
on the carrier, it was found that the most optimal is 1% MoCrGa/TC catalyst, on which up to 89.92% of hydrogen is
obtained. As a result of varying the composition of the catalyst, the content of the active phase, the ratio of reactants,
up to 70% of ethylene was obtained. In addition, in some cases, CH3OH was obtained, the maximum yield of which
is 22%, and also up to 35% of methyl ethyl ketone. As a result of EM and XRD studies, it was shown that under
reaction conditions, a new Cr2O5 phase is formed on the catalyst surface (corresponding to the Cr2+ and Cr3+
transition to Cr5+), as well as joint Mo phases with Cr in different valence states, the physical meaning and role of
which are to be determined.

Загрузки

Опубликован

2019-04-04

Как цитировать

Massalimova Bakytgul Kabykenovna, Shorayeva Kamshat Abitkhanovna, Naurzkulova Symbat Muratbekovna, Jetpіsbayeva Gulіm Danebaevna, Altynbekova Dіnara Tansykovna, Amanzhol Zhuldyz Erbatyrkyzy, & Sadykov Vladіslav Alesandrovіch. (2019). THE CATALYTICAL OXIDATION OF PROPAN-BUTANE MIXTURE ON THE HYDROGEN AND HYDROGEN СОNTENT COMPOUNDS . Известия НАН РК. Серия химии и технологии, (2), 21–25. извлечено от http://89.250.84.46/chemistry-technology/article/view/1273