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View article: Energy Efficiency and Hydrogen Demand of Atmospheric Fast Catalytic Hydropyrolysis of Residual Lignocellulosic Biomass
Energy Efficiency and Hydrogen Demand of Atmospheric Fast Catalytic Hydropyrolysis of Residual Lignocellulosic Biomass Open
The accelerating penetration of intermittent renewables underscores the need for versatile energy carriers capable of buffering the mismatch between variable generation and end-use demand. Integrating residual lignocellulosic biomass with …
View article: Mutual interaction of pyrolysis operating conditions and surface morphology for the electrochemical performance of biochar-modified screen-printed electrodes
Mutual interaction of pyrolysis operating conditions and surface morphology for the electrochemical performance of biochar-modified screen-printed electrodes Open
The transition towards a low-emission economy requires advanced carbon-based materials for multiple applications. This study aimed to correlate the temperature of intermediate pyrolysis with surface morphology and the electrochemical perfo…
View article: Design and control of fluidized-bed reactors for fast pyrolysis of lignocellulosic residual biomass utilizing machine learning techniques
Design and control of fluidized-bed reactors for fast pyrolysis of lignocellulosic residual biomass utilizing machine learning techniques Open
View article: The effect of pyrolysis temperature on the optimal conversion of residual biomass to clean syngas through fast-pyrolysis/steam gasification integration
The effect of pyrolysis temperature on the optimal conversion of residual biomass to clean syngas through fast-pyrolysis/steam gasification integration Open
View article: Selective Phenolics Recovery from Aqueous Residues of Pyrolysis Oil through Computationally Designed Green Solvent
Selective Phenolics Recovery from Aqueous Residues of Pyrolysis Oil through Computationally Designed Green Solvent Open
Leveraging advanced computational techniques, this study introduces an innovative hybrid computational-experimental approach for the recovery of hydroquinone and p-benzoquinone from the aqueous residue of pyrolysis oil derived from spent c…
View article: Intermediate pyrolysis of hazelnut shell: temperature effect on energy conversion and products characteristics
Intermediate pyrolysis of hazelnut shell: temperature effect on energy conversion and products characteristics Open
Residual biomass is a renewable and clean energy source that is expected to play a crucial role in the energy transition. Thermochemical valorization of agro-industrial waste represents a promising alternative, which is still requiring fur…
View article: Platform chemicals recovery from spent coffee grounds aqueous-phase pyrolysis oil
Platform chemicals recovery from spent coffee grounds aqueous-phase pyrolysis oil Open
Spent coffee grounds (SCG) are a valuable biowaste diffused on a global scale, containing a significant amount of extractives. The aim of this study is to characterize the pyrolysis oil fractions, under various process conditions, targetin…
View article: Defatted spent coffee grounds fast pyrolysis polygeneration system: Lipid extraction effect on energy yield and products characteristics
Defatted spent coffee grounds fast pyrolysis polygeneration system: Lipid extraction effect on energy yield and products characteristics Open
Spent coffee Grounds (SCG), residues after coffee brewing, are a biowaste diffused on a global scale rich of valuable extractives. Pyrolysis is an efficient process to valorize SCG energy content into biofuels. This study aims to experimen…
View article: Sustainable Valorization of Bioplastic Waste: A Review on Effective Recycling Routes for the Most Widely Used Biopolymers
Sustainable Valorization of Bioplastic Waste: A Review on Effective Recycling Routes for the Most Widely Used Biopolymers Open
Plastics-based materials have a high carbon footprint, and their disposal is a considerable problem for the environment. Biodegradable bioplastics represent an alternative on which most countries have focused their attention to replace of …
View article: Biomass Polygeneration System for the Thermal Conversion of Softwood Waste into Hydrogen and Drop-In Biofuels
Biomass Polygeneration System for the Thermal Conversion of Softwood Waste into Hydrogen and Drop-In Biofuels Open
In order to keep the +1.5 °C over-temperature, previously predicted with high confidence by IPPC Sixth Assessment, as minimal as feasible, it is more than vital to achieve a low-emission energy system. Polygeneration systems based on therm…