Applied Catalysis A: General, Vol.549, 263-272, 2018
The effect of synthesis parameters on ordered mesoporous nickel alumina catalyst for CO2 methanation
A series of ordered mesoporous nickel alumina catalysts were synthesized via the evaporation induced self assembly technique (EISA). Varying synthesis parameters such as the type of acid, nickel loading, calcination temperature as well as synthesis method influenced the catalyst morphology and its activity towards CO2 methanation. Catalyst prepared without acid formed macroporous structures with a very low surface area (47 m(2) g(-1)), whereas using a mixture of hydrochloric and citric acid resulted in incomplete formation of mesoporous micelles with surface area of 173 m(2) g(-1). On the other hand, using nitric acid lead to complete formation of long cylindrical micelles with a combined surface areas up to 260 m(2) g(-1) and highly dispersed nickel clusters with a size of 3-5 nm. An optimum calcination temperature of 700 degrees C was determined yielding the highest CO2 conversion and CH4 selectivity. This catalyst displayed a stable performance and did not exhibit any sign of deactivation during a 150 h test. Catalysts calcined at lower and higher temperatures had smaller surface areas as well as lower catalytic activity.
Keywords:CO2 methanation;Ordered mesoporous nickel alumina catalyst;Catalyst synthesis and characterization