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2 553 992

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IPC

C10G61/02(2006-01-01)

C10G59/02(2006-01-01)

C10G35/04(2006-01-01)

C07C4/00(2006-01-01)

(21) (22)

Application

2013145371/04, 2012-04-20

(24)

Start date

2012-04-20

(22)

Actual filing date

2012-04-20

(45)

Published

2015-06-20

(72)

Inventor

Vedzherer Dejvid A.Vanden Bushe Kurt M.Mozer Mark D.

(73)

Holder

Juop Llk

METHOD ON INCREASING VOLUME OF PRODUCTION OF AROMATIC COMPOUNDS Russian patent published in 2015 - IPC C10G61/02 C10G59/02 C10G35/04 C07C4/00 

Abstract RU 2553992 C2

FIELD: chemistry.

SUBSTANCE: invention relates to method of obtaining aromatic compounds from initial hydrocarbon stream, in which: initial hydrocarbon stream is passed into separation unit with formation of light technological flow, which contains C7-hydrocarbons and has reduced concentration of endothermic hydrocarbon components, and heavy technological flow, which contains C8+-hydrocarbons, as well as C6 and C7-naphthenes and has higher concentration of endothermic components; light technological flow in passed into first reforming reactor, with first reforming reactor having working temperature higher than 540°C; heavy technological flow is passed into second reforming reactor, with formation of output flow of second reforming reactor, with second reforming reactor having second working temperature, and first working temperature is higher than second working temperature; output flow of second reforming reactor is passed into first reforming reactor, with formation of output flow of first reforming reactor; output flow of first reforming reactor is passed into unit of separation of aromatic compounds, with formation of flow of aromatic products and raffinate flow. First reforming reactor and second reforming reactor contains the same catalyst, containing noble metal of group VIII on substrate, and first reforming reactor and second reforming reactor work under pressure lower than 580 kPa (abs).

EFFECT: application of claimed invention makes it possible to increase quantity of obtained benzene and toluene.

8 cl, 5 dwg, 2 tbl

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RU 2 553 992 C2

Authors

Vedzherer Dejvid A.

Vanden Bushe Kurt M.

Mozer Mark D.

Dates

2015-06-20Published

2012-04-20Filed

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