P Gélin, M Primet - Applied Catalysis B: Environmental, 2002 - Elsevier
This review examines recent developments in the complete oxidation of methane at low temperature over noble metal based catalysts in patents and open literature. The abatement …
Replacing traditional fossil fuels with sustainable and clean energy has been imperative in order to address the occurrent energy and environmental crises. During this foreseen global …
Palladium-based catalysts are widely applied in exhaust catalytic converter and catalytic combustion systems. The mechanism for methane oxidation on a Pd-based catalyst is …
R Gholami, M Alyani, KJ Smith - Catalysts, 2015 - mdpi.com
Effects of H2O on the activity and deactivation of Pd catalysts used for the oxidation of unburned CH4 present in the exhaust gas of natural-gas vehicles (NGVs) are reviewed …
Effective methane utilization for either clean power generation or value-added chemical production has been a subject of growing attention worldwide for decades, yet challenges …
Palladium-based catalysts supported on metal oxides are attractive for methane combustion at low temperature. However, at temperatures below 450° C, their tendency to deactivate …
Complete catalytic oxidation of methane in the presence of steam at low temperatures (T< 400° C) is a crucial reaction for emission control, yet it presents profound challenges. The …
This brief review is focused on recent advancements in methane catalytic oxidation, an important reaction for environmental remediation and clean power generation. Particular …
The stability of methane conversion was studied over a Pd/Al2O3 catalyst and bimetallic Pd– Pt/Al2O3 catalysts. The activity of methane combustion over Pd/Al2O3 gradually decreased …