Petrochemical Institute of the Republic of Bashkortostan

Bashkortostan, Russia

Petrochemical Institute of the Republic of Bashkortostan

Bashkortostan, Russia

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Glagoleva O.F.,Gubkin Russian State University of Oil and Gas | Strelkova V.K.,Gubkin Russian State University of Oil and Gas | Zhirnov B.S.,Ufa State Petroleum Technological University | Fatkullin M.R.,Ufa State Petroleum Technological University | Khairudinov I.R.,Petrochemical Institute of the Republic of Bashkortostan
Solid Fuel Chemistry | Year: 2014

The decrease in the concentration of sulfur oxides in the gaseous products of the combustion of high-sulfur petroleum coke was studied. The aqueous dispersions of shale from the Baltic Basin, shale semi-coke, shale ash, and calcium oxide were studied as the additives that decrease the formation of gaseous sulfur oxides. A change in the rate of combustion of impregnated samples, as compared with that of the initial coke, was considered. © 2014 Allerton Press, Inc.


Khairudinov I.R.,Petrochemical Institute of the Republic of Bashkortostan | Panchenko O.Y.,Petrochemical Institute of the Republic of Bashkortostan | Bystrov A.I.,Petrochemical Institute of the Republic of Bashkortostan | Sultanov F.M.,Petrochemical Institute of the Republic of Bashkortostan
Chemistry and Technology of Fuels and Oils | Year: 2011

The possibility of utilizing previously developed fast methods for determining the yield of the basic gas condensate fractions from Karachaganak, Tengiz, and Zhanazhol fields in an atmospheric-vacuum distillation unit is examined. The yield of commercial products in processing these gas condensates at a hypothetical oil refinery is presented. © 2011 Springer Science+Business Media, Inc.

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