Electrochemical transformations of fast pyrolysis bio-oils and related bio- oil compounds

Full report available here Electrochemical transformations of fast pyrolysis bio-oils and related bio-oil compounds Green, sustainable and recyclable bio-based carbon is one of the central pillars of the future renewable energy mix and biobased economy. Industrial efforts to optimize the use of biomass-derived carbon as biofuels are rapidly maturing, leading to increasing amounts of bio-based

Improving Fast Pyrolysis Bio-Oil Yield and Quality by Alkali Removal from Feedstock

Evolution of coke structures during electrochemical upgrading of bio-oil - ScienceDirect

Selective deoxygenation of biomass-derived carbonyl compounds on Zn via electrochemical Clemmensen reduction

Polymerization during low-temperature electrochemical upgrading of bio-oil: Multi-technique characterization of bio-oil evolution - ScienceDirect

Improving plastic pyrolysis oil quality via an electrochemical process for polymer recycling: a review - Energy Advances (RSC Publishing) DOI:10.1039/D3YA00389B

Recent Advances in Fast Pyrolysis and Oil Upgradation

Schematic of the direct atmospheric distillation coupled with

Bioupgrading of the aqueous phase of pyrolysis oil from lignocellulosic biomass: a platform for renewable chemicals and fuels from the whole fraction of biomass, Bioresources and Bioprocessing

Scaling‐Up of Bio‐Oil Upgrading during Biomass Pyrolysis over ZrO2/ZSM‐5‐Attapulgite - Hernando - 2019 - ChemSusChem - Wiley Online Library

Materials, Free Full-Text

Algae pyrolysis in alkaline molten salt: Products transformation - ScienceDirect

Catalytic fast pyrolysis of agricultural residues and dedicated energy crops for the production of high energy density transportation biofuels. Part I: Chemical pathways and bio-oil upgrading - ScienceDirect

Operating parameters for bio-oil production in biomass pyrolysis: A review - ScienceDirect

Frontiers Efficient Conversion of Aqueous-Waste-Carbon Compounds Into Electrons, Hydrogen, and Chemicals via Separations and Microbial Electrocatalysis