Title :
Plasma-Assisted Reforming of Natural Gas for GTL—Part I
Author :
Serbin, S.I. ; Matveev, I.B. ; Goncharova, N.A.
Author_Institution :
Nat. Univ. of Shipbuilding, Mykolayiv, Ukraine
Abstract :
Development and modeling have been performed for different schemes for a plasma-assisted, catalyst-free process for natural gas conversion into synthesis gas, at pressures up to 3 MPa. Two oxidizers, oxygen with different purity and oxygen-steam blends, have been used to obtain a H2-to-CO ratio over 1.8. This ratio qualifies the synthesis gas as an appropriate feedstock for further direct liquefaction via Fisher-Tropsch processing. The results obtained can be used for development of the catalyst-free natural gas reformers for small scale, gas-to-liquid technologies.
Keywords :
liquefaction; natural gas technology; steam reforming; syngas; Fisher-Tropsch processing; GTL; catalyst-free natural gas reformers; direct liquefaction; hydrogen-to-carbon monoxide ratio; natural gas conversion; oxidizers; oxygen purity; oxygen- steam blends; plasma-assisted catalyst-free process; plasma-assisted reforming; small-scale gas-to-liquid technologies; synthesis gas; Combustion; Converters; Natural gas; Plasma temperature; Water; Conversion; gas-to-liquid; methane; natural gas; plasma; reformer; reforming; syngas;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2353042
