From raw material powder to solid fuel pellet: A state-of-the-art review of biomass densification
H He, Y Wang, Y Sun, W Sun, K Wu - Biomass and Bioenergy, 2024 - Elsevier
Densification is the most effective forming technology, the production of which, pellets are
the most intensive energy content of biomass solid fuels. Increasing the overall utilization …
the most intensive energy content of biomass solid fuels. Increasing the overall utilization …
Effects of biomass feedstock and applied pressure on the binding mechanism and pellet qualities
H He, Y Wang, W Sun, Y Sun, K Wu - Industrial Crops and Products, 2024 - Elsevier
To expand the sources of feedstocks for pelleting and enhance the applicability of the
pelleting device, 7 types of feedstocks with representative chemical component contents …
pelleting device, 7 types of feedstocks with representative chemical component contents …
Unlocking Power: Impact of Physical and Mechanical Properties of Biomass Wood Pellets on Energy Release and Carbon Emissions in Power Sector
C Scott, TM Desamsetty, N Rahmanian - Waste and Biomass Valorization, 2024 - Springer
This study investigates the physical and mechanical properties of 12 biomass wood pellet
samples utilised in a power generation, focusing on their implications for energy release and …
samples utilised in a power generation, focusing on their implications for energy release and …
Co-pelleting of biomass feedstock: Effects of blend types and ratios on mechanical behavior and physical properties
H He, K Wu, Y Wang, Y Sun, J Wu - Renewable Energy, 2025 - Elsevier
Co-pelleting of blend feedstocks was conducted in the single pelleting press to improve
pellet quality. The mechanical behavior of feedstock blends during the densification process …
pellet quality. The mechanical behavior of feedstock blends during the densification process …