Temperature inversion of the action of multilayer fullerenoid structures in the oxidation of N-decan by molecular oxygen-Reference-Cited by-同舟云学术

Temperature inversion of the action of multilayer fullerenoid structures in the oxidation of N-decan by molecular oxygen

Published:2021 Issue:32 Volume: Page:99-105
ISSN:2412-4176
Container-title:Catalysis and Petrochemistry
language:
Short-container-title:Kataliz ta naftohimia

Author:

Polunkin Ie.V.^ORCID, ,Pilyavsky V.S.^ORCID,Kamenieva T.M.^ORCID,Melnykova S.L.^ORCID,Gajdaj О.О.^ORCID,Bogomolov Yu.I.

Abstract

It was established that at low temperatures MFS inhibit the oxidation of n-decan, and at temperatures close to the boiling point of the hydrocarbon, on the contrary, accelerate the transformation of the original alkane molecules. The composition of alkane transformation products in the high-temperature two-phase (gas-liquid) oxidation regime was analyzed by gas-liquid chromatography. It is shown that the transformation of n-decan molecules occurs according to the same schemes both in the case of oxidation without the additive of MFS, and in the presence of these compounds in a liquid. The work is devoted to the actual problem of increasing the energy efficiency of liquid motor fuels (gasoline, diesel and jet fuels) in transport power plants. One of the most acceptable ways to solve this problem at the present stage, which does not require capital expenditure, is to improve the processes of chemical transformations of fuel molecules in engines under the action of additives. The use of multilayer fullerene-like structures (MFS) as additives to motor fuels is proposed. The influence of additives modified MFS on the conversion of reagents in the processes of liquid-phase oxidation of n-decan by molecular oxygen at low (70°C) and high (150°C) temperatures has been studied. The change in the direction of the MFS action on chemical transformation of initial reagents depending on process temperature is experimentally revealed. It was established that at low temperatures MFS inhibit the oxidation of n-decan, and at temperatures close to the boiling point of hydrocarbons, on the contrary, accelerate the transformation of the original alkane molecules. The composition of alkane transformation products at high-temperature two-phase (gas-liquid) oxidation regime was analyzed by gas-liquid chromatography. It is shown that the transformation of n-decan molecules occurs according to the same schemes both in the case of oxidation without the additive of MFS, and in the presence of these compounds in a liquid.

Publisher

National Academy of Sciences of Ukraine (Co. LTD Ukrinformnauka) (Publications)

Subject

General Earth and Planetary Sciences,General Environmental Science

Reference23 articles.

1. 1. Galyshev Yu.V., Magidovich L.E., Rumyantsev V.V. Toplivnyye problemy transportnoy energetiki. Sankt-Peterburg. Izd-vo Sankt-Peterburgskogo Politekhnicheskogo universiteta. 2005. 235. [In Russian].

2. 2. Gusarov A.P. Potrebleniye topliva i vybrosy СO2 avtomobilyami. Zhurnal avtomobilnykh inzhenerov. 2009. 5. 48-53. [In Russian].

3. 3. Safonov A.S., Ushakov A.I., Grishin V.V. Khimmotologiya goryuche-smazochnykh materialov. Sankt-Peterburg. NPIKTs. 2007. 488. [In Russian].

4. 4. Danilov A.M. Primeneniye prisadok v toplivakh. Moskva. Khimizdat. 2010. 368. [In Russian].

5. 5. Troshin P.A., Troshina O.A., Lyubovskaya R.N., Razumov V.F. Funktsionalnyye proizvodnyye fullerenov: metody sinteza i perspektivy ispolzovaniya v organicheskoy elektronike i biomeditsine. Ivanovo. Ivanovskiy gosudarstvennyy universitet. 2008. 310. [In Russian].