Improving the efficiency of multistage production of alkylbenzene sulfonic acid; Petroleum and Coal; Vol. 61, iss. 4

Improving the efficiency of multistage production of alkylbenzene sulfonic acid; Petroleum and Coal; Vol. 61, iss. 4

Opis bibliograficzny
Parent link:Petroleum and Coal
Vol. 61, iss. 4.— 2019.— [P. 719-724]
1. autor: Dolganova I. O. Irena Olegovna
Korporacja: Национальный исследовательский Томский политехнический университет Инженерная школа природных ресурсов Отделение химической инженерии
Kolejni autorzy: Borissov A. A. Anatoli Alimpievich
Streszczenie:Title screen
The object of the research is multi-stage integrated production of linear alkylbenzenes and linearalkylbenzene sulfonic acid. The established thermodynamic and kinetic laws of the transformations ofC9–C14 hydrocarbons and the activity of catalysts used in the synthesis of linear alkylbenzenes providedthe creation of mathematical models suitable for optimizing the main stages of the synthesis. theassessment of the full range of nonstationarity factors caused by the deactivation of catalysts wasmade on the basis of a computational and industrial experiment simulation. the model calculationsallowed improving the efficiency of multistage production of alkylbenzene sulfonic acid and to increasethe desired product yield from 170 –172 to 174–176 tones/day.
Język:angielski
Wydane: 2019
Hasła przedmiotowe:
электронный ресурс
труды учёных ТПУ
mathematical modeling
dehydrogenation
alkylation
sulphonation
catalyst activity
Dostęp online:https://www.vurup.sk/wp-content/uploads/2019/06/PC-X-2019_Dolganova_53_rev1.pdf
Format: Elektroniczne Rozdział
KOHA link:https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=662848
Opis
Streszczenie:Title screen
The object of the research is multi-stage integrated production of linear alkylbenzenes and linearalkylbenzene sulfonic acid. The established thermodynamic and kinetic laws of the transformations ofC9–C14 hydrocarbons and the activity of catalysts used in the synthesis of linear alkylbenzenes providedthe creation of mathematical models suitable for optimizing the main stages of the synthesis. theassessment of the full range of nonstationarity factors caused by the deactivation of catalysts wasmade on the basis of a computational and industrial experiment simulation. the model calculationsallowed improving the efficiency of multistage production of alkylbenzene sulfonic acid and to increasethe desired product yield from 170 –172 to 174–176 tones/day.

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