Investigation of Biogas Dry Reforming over Ru/CeO2 Catalysts and Pd/YSZ Membrane Reactor
Omid Jazani, Simona Liguori

TL;DR
This study explores using a membrane reactor with a Ru/CeO2 catalyst to efficiently produce syngas from biogas while reducing greenhouse gases.
Contribution
The integration of a Pd/YSZ membrane with a Ru/CeO2 catalyst for biogas dry reforming is shown to enhance syngas production and stability.
Findings
Maximum CH4 and CO2 conversions of 43% and 46.7% were achieved at 600 °C and 2 bar.
Hydrogen recovery reached 78% at 6 bar, with the membrane reactor outperforming conventional systems.
Ru/CeO2 showed better resistance to coke formation compared to Ni/Al2O3 catalysts.
Abstract
The biogas dry reforming reaction offers a promising route for syngas production while simultaneously mitigating greenhouse gas emissions. Membrane reactors have proven to be an excellent option for hydrogen production and separation in a single unit, where conversion and yield can be enhanced over conventional processes. In this study, a Pd/YSZ membrane integrated with a Ru/CeO2 catalyst was evaluated for biogas reaction under varying operating conditions. The selective removal of hydrogen through the palladium membrane improved reactant conversion and suppressed side reactions such as methanation and the reverse water–gas shift. Experiments were performed at temperatures ranging from 500 to 600 °C, pressures of 1–6 bar, and a gas hourly space velocity (GHSV) of 800 h−1. Maximum conversions of CH4 (43%) and CO2 (46.7%) were achieved at 600 °C and 2 bar, while the maximum hydrogen…
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Taxonomy
TopicsCatalysts for Methane Reforming · Ammonia Synthesis and Nitrogen Reduction · Catalytic Processes in Materials Science
