Title :
Plasma-Assisted Reforming of Natural Gas for GTL: Part II—Modeling of the Methane–Oxygen Reformer
Author :
Serbin, Serhiy I. ; Matveev, Igor B. ; Mostipanenko, Ganna B.
Author_Institution :
Nat. Univ. of Shipbuilding, Mykolaiv, Ukraine
Abstract :
Computer modeling has been used to provide more detailed information about the alternative catalyst-free methane-oxygen reformer for a small scale gas-to-liquid module. The basic input data include 3-MPa process pressure, oxygen as oxidizer, and oxidizer/fuel equivalence ratio about 3 to provide H2 to CO ratio ≥1.7 needed for further direct liquefaction via Fisher-Tropsch processing. As a result, a reasonable temperature level of the reformer walls has been achieved that makes possible its engineering as the next step.
Keywords :
catalysts; organic compounds; oxygen; plasma chemistry; Fisher-Tropsch processing; O2; catalyst-free methane-oxygen reformer; computer modeling; hydrogen-carbon monoxide ratio; natural gas; oxidizer-fuel equivalence ratio; plasma-assisted reforming; pressure 3 MPa; small scale gas-to-liquid module; Ceramics; Combustion; Cooling; Hydrogen; Natural gas; Plasma applications; Plasma temperature; Conversion; gas-to-liquids (GTL); methane; natural gas; plasma; reformer; reforming; syngas; syngas.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2015.2438174
