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2 594 161

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IPC

C01B3/38(2006-01-01)

C01B3/34(2006-01-01)

B01J23/76(2006-01-01)

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Application

2015115573/04, 2015-04-24

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Start date

2015-04-24

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Actual filing date

2015-04-24

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Published

2016-08-10

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Inventor

Dedov Aleksej GeorgievichLoktev Aleksej SergeevichMoiseev Ilya IosifovichMukhin Igor EvgenevichGolikov Sergej DmitrievichShmigel Anastasiya VladimirovnaTikhonov Petr AlekseevichLapshin Andrej Evgenevich

(73)

Holder

Federalnoe Gosudarstvennoe Byudzhetnoe Obrazovatelnoe Uchrezhdenie Vysshego Professionalnogo Obrazovaniya Gosudarstvennyj Universitet Nefti I Gaza Imeni I.M. Gubkina"Federalnoe Gosudarstvennoe Byudzhetnoe Uchrezhdenie Nauki Ordena Trudovogo Krasnogo Znameni Institut Khimii Silikatov Im. I.V. Grebenshshikova Rossijskoj Akademii Nauk Ran)

METHOD OF PRODUCING SYNTHESIS GAS WITH HIGH-TEMPERATURE CATALYTIC OXIDATIVE CONVERSION OF METHANE Russian patent published in 2016 - IPC C01B3/38 C01B3/34 B01J23/76 

Abstract RU 2594161 C1

FIELD: gas industry.

SUBSTANCE: invention relates to a method of producing synthesis gas with high-temperature catalytic oxidative conversion of methane. Method consists in feeding into reactor, in which there is a catalyst, initial gas mixture containing a mixture of methane and carbon dioxide and carrying out process at 778-964 °C. Catalyst used has foam-nickel type selected from a group including nickel foam with PPI - number of pores at linear inch, above 80, nickel foam with applied on its surface by electrochemical method with nickel hydroxide followed by drying of surface to form thereon nickel hydroxide or with subsequent drying and heat treatment with formation thereon nickel oxide or nickel foam with applied on its surface by electrochemical process transition metal VI groups of periodic table of elements with subsequent drying and heat treatment of surface, heat treatment of surface is carried out on air at temperature 500-600 °C.

EFFECT: technical result consists in improvement of conversion of methane and CO2, high output of carbon monoxide and hydrogen, simple technique of carrying out method and reduction of costs due to process in absence of inert gases, as well as use of a catalyst obtained using a simple method.

3 cl, 1 tbl, 36 ex

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RU 2 594 161 C1

Authors

Dedov Aleksej Georgievich

Loktev Aleksej Sergeevich

Moiseev Ilya Iosifovich

Mukhin Igor Evgenevich

Golikov Sergej Dmitrievich

Shmigel Anastasiya Vladimirovna

Tikhonov Petr Alekseevich

Lapshin Andrej Evgenevich

Dates

2016-08-10Published

2015-04-24Filed

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