Abstract: Hydrogen production via Sorption-Enhanced Chemical-Looping reforming combines hydrocarbons reforming (in this case methane reforming), by chemical-looping auto-thermal reforming, with water-gas shift and carbonation reactions. Both H2 production rate and concentration depend on the chemical equilibrium that is established in the fuel reactor and that is influenced by several parameter...

Article history: Received 11 October 2015 Received in revised form 2 December 2015 Accepted 15 December 2015 Available online 17 December 2015 The dry reforming of methane (DRM) utilizes carbon dioxide (CO2) as the oxidizing agent in order to produce synthesis gas. Catalyst deactivation via coking, oxidation, and sintering has stymied the industrialization of catalysts for the DRM. Here, we uti...

The CO2 (dry) reforming of hydrocarbons offers an opportunity to convert greenhouse gases into synthesis gas, which can further transform various valued products. Here we explore the influence Rh particle size and support on propane methane. To that end, nanoparticles with controlled sizes varying from 1.6-8.0 nm were synthesized following a polyol reduction method then dispersed three differen...

An active and stable catalyst for dry reforming of methane composed Ni0 nanoparticles highly dispersed on a lamellar alumina was prepared by employing sacrificial metal–organic framework derived from PET wastes.

As a favorably clean fuel, syngas (synthesis gas) production has been the focus of concern in past decades. Substantial literatures reported the syngas production by various catalytic reforming reactions particularly in methane or ethanol reforming. Among the developed catalysts in these reforming processes, Ni-based catalysts from hydrotalcite-like compounds (HTLcs) precursors have drawn consi...

This study reports the dry reforming of methane (DRM) using non-thermal plasma in a swirl-induced point-plane electrode discharge reactor to produce syngas. geometry facilitates better mixing reactant gases region, thus increasing residence time and conversion reactants. The effect varying flow rates compositions CO2/CH4 (v%/v%) on was studied. A high-voltage AC power input 50 W 70 at frequency...