Ni-Ru/CeO₂ Catalytic Hydrothermal Upgrading of Water-Insoluble Biocrude from Algae Hydrothermal Liquefaction

Hydrothermal liquefaction (HTL) of algae is a promising crude bio-oil (biocrude) production technology, which can convert wet algae into water-insoluble biocrude and other coproducts. In this work, algae HTL at 350°C and 20 min was conducted to obtain water-insoluble biocrude (B₁), which was then hydrothermally upgraded at 450°C, 60 min, or with added H₂ and/or homemade catalyst (i.e., Ni-Ru/CeO₂ or Ni/CeO₂) for the first time. The characteristics (e.g., yield, elemental component, energy recovery, and molecular and functional group compositions) of upgraded water-insoluble biocrude (B₂) as well as light biocrude thereof were analyzed comprehensively. The results show that Ni-Ru/CeO₂+H₂ led to the highest yield and HHV (higher heating value), the best elemental compositions quality of B₂, and the largest fraction and the best light of light biocrude in B₂. Ni-Ru/CeO₂+H₂ had good catalytic desulfurization effect and could transform high-molecular-weight compounds into low-molecular-weight compounds in B₁ upgrading. At the condition above, 46.2% of chemical energy in the initial algae could be recovered by B₂, while average 54.9% of chemical energy in B₂ was distributed in its light biocrude (hexane-soluble) portion. On the whole, Ni-Ru/CeO₂+H₂ can be considered as the optimal additive in all tested cases.