V. S. Ermolaev scite author profile

The design and optimization of a gas-to-liquids technology (GTL) is considered, mostly from the view of an optimal choice of a synthesis gas (syngas) production method. Material balance and energy efficiency are calculated for a number of flowsheets, which comprise syngas production by various techniques and Fischer−Tropsch (FT) synthesis of liquid hydrocarbons (LHs). Three different methods are considered for syngas production: combined steam and dry reforming; autothermal reforming; and partial oxidation. The FT process is considered in the version, which produces LHs, not waxes. The results of modeling manifest that the choice of syngas production method influences dramatically the efficiency of overall GTL technology. Ways to improve the efficiency of GTL technology are discussed.

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Liquid-vapor thermodynamic equilibrium in Fischer-Tropsch synthesis products

Деревич

Ermolaev

Мордкович

2008

Theor Found Chem Eng

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Substantiating the selection of recirculation circuits in technology for synthesizing liquid hydrocarbons from natural gas

Ermolaev

Мордкович

2013

Theor Found Chem Eng

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V. S. Ermolaev

Scaled-up process for producing longer carbon nanotubes and carbon cotton by macro-spools

Laboratory and pilot plant fixed-bed reactors for Fischer–Tropsch synthesis: Mathematical modeling and experimental investigation

Efficiency of Gas-to-Liquids Technology with Different Synthesis Gas Production Methods

Liquid-vapor thermodynamic equilibrium in Fischer-Tropsch synthesis products

Substantiating the selection of recirculation circuits in technology for synthesizing liquid hydrocarbons from natural gas

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