Lignin-derived bio-oil required upgrades to reduce its oxygen functionalities to produce high
quality liquid fuel that is comparable to those of petroleum source. Hydrodeoxygenation is a …

Bio-oil produced from biomass pyrolysis and hydrothermal liquefaction is considered as the
most sustainable alternative for depleting fossil fuels. However, the poor bio-oil properties …

Fast pyrolysis converts> 60 wt% of lignocellulosic materials into bio-oil. The two-step bio-oil
hydrotreatment concept has had a major impact in the development of bio-oil hydro …

This paper presents a review of recent research on direct upgrading of coal/biomass
volatiles into aromatics by catalytic pyrolysis and syngas by gasification with catalytic steam …

Catalytic hydrodeoxygenation (HDO) is a fundamental process for bio‐resources upgrading
to produce transportation fuels or added value chemicals. The bottleneck of this technology …

From the conventional use of biomass in the form of heating to the modern day use of
biomass in the form of electricity generation and biofuel production, biomass has always …

The unfavorable physicochemical properties of biomass pyrolysis bio-oil make it unsuitable
for use in energy/chemical infrastructure. Various physical/thermochemical methods should …

Hydrodeoxygenation (HDO) is an effective route to upgrade bio-oil to hydrocarbon bio-oil,
but the development of efficient catalysts for bio-oil HDO still remains a challenge. In this …

Biomass valorization to produce fuels and platform chemicals is one of the most relevant
strategies to change the energetic scenario and the currently unsustainable petrochemical …

Green and renewable bio-diesel prepared from oils catalytic hydrodeoxygenation (HDO) will
have a great impact on clean energy structure and industrial application. The core issue of …