Effective conversion of heteroatomic model compounds in microalgae-based bio-oils to hydrocarbons over β-Mo2C/CNTs catalyst

Bifunctional Pt–Mo catalyst for in situ hydrogenation of methyl stearate into alkanes using formic acid as a hydrogen donor

In situ hydrogenation of methyl stearate on Pt–Mo/AC has a high hydrogen utilization rate due to the strong interaction between Pt and β-Mo2C.

Hydrothermal liquefaction of microalgae over transition metal supported TiO2 catalyst

Hydrothermal liquefaction (HTL) of microalgae Nannochloropsis (NAS) over various transition metal M/TiO₂ (M = Fe, Co, Ni, Mo, and Mn) was investigated. Ni/TiO₂ was the most effective catalyst to improve the yield and quality of biocrude and the liquefaction conversion. Ni/TiO₂ was characterized by XRD, XRF, and XPS. The research of Effect of reaction temperature on HTL of NAS over Ni/TiO₂ suggested that 300 °C led to a maximum biocrude yield of 48.23% and the highest liquefaction conversion of 89.28%. Adding Ni/TiO₂ catalyst reduced the viscosity and provided more light-fraction in biocrude while brought a slight increase in total acid number (TAN). Gas chromatography-mass spectrometry (GC-MS) analysis demonstrated that adding Ni/TiO₂ considerably changed the composition of biocrude and the possible pathways were discussed. Reproduction test showed the Ni/TiO₂ has an excellent reproduction ability in HTL of NAS.

Recent progress on upgrading of bio-oil to hydrocarbons over metal/zeolite bifunctional catalysts

Upgrading of bio-oil over metal/zeolite bi-functional catalysts, is of high necessity and popularity in converting biomass to high-quality hydrocarbons (transportation fuels and petrochemicals) to reduce the overall CO₂ emissions of fossil based materials.