Catalytic Hydrogen Production from Acetic Acid Over Bimetallic Catalysts

Experimental data evaluates bimetallic Ni-M catalysts supported on mesostructured CeO2 for hydrogen production via oxidative steam reforming of acetic acid. The dataset, authored by Alvaro Moreno de la Calle and harvested from e-cienciaDatos, was last updated in October 2025. Catalytic performance metrics include acetic acid conversion, hydrogen yield, and coke deposition at 550°C.

Use Cases

• Compare catalyst performance based on hydrogen yield and acetic acid conversion metrics described in the study
• Analyze the impact of noble metal promoters (Pt, Ru, Rh) on catalyst selectivity and coke deposition
• Model reaction pathways for biomass-derived compound reforming based on product selectivity data
• Benchmark new catalyst formulations against the reported performance of Ni-Pt/CeO2-m

Strengths

• Includes specific performance metrics, such as a hydrogen yield of ~63% for the best catalyst
• Reports quantified coke deposition rate of 25.6 mgcoke·gcat-1·h-1 for the Ni-Pt sample
• Compares multiple bimetallic formulations (Ni-Pt, Ni-Ru, Ni-Rh) against an unpromoted baseline

Limitations

• Column-level documentation is absent; field semantics must be inferred after download
• Row count is unknown, which may limit suitability assessment for statistical modeling

Provenance

Source

e-cienciaDatos Harvested Dataverse

Collection Method

Experimental study of catalytic reactions, likely containing tabular results from laboratory tests.

Time Range

Experimental data likely corresponds to the study period, but specific range is not provided.

Freshness

Last updated 2025-10-14 21:45:59; freshness should be verified

Geography

Geographic origin of the research or data collection is not specified.