Inhibition of carbon formation during steam reforming of methane over ethyldisulfide-impregnated metallic nickel catalysts

Abstract

This paper describes the surface modification of unsupported micrometric nickel powder with ethyldisulfide and its use as a catalyst in steam reforming of methane (SRM). It reports on catalytic activity and inhibition of carbon formation due to unsupported Ni catalyst alterations with varying ethyldisulfide molar ratios. Methane conversion was investigated by mass spectrometry under time-on-stream conditions during SRM reactions at a temperature=700°C for 12h at methane/steam molar ratio=1:2 and gas hourly space velocity=19,600mlg−1h−1; selectivity toward hydrogen production and CO and CO2 formation was calculated. The nature and relative quantities of carbon species formed on the surface of spent catalysts were studied by X-ray photoelectron spectroscopy analysis. A preliminary mechanistic explanation regarding the inhibition of C formation over the used modified catalysts is provided with.