Journal ArticleDOI
Pyrolysis of Wood/Biomass for Bio-oil: A Critical Review
TLDR
A review of the recent developments in the wood pyrolysis and reports the characteristics of the resulting bio-oils, which are the main products of fast wood pyrotechnics, can be found in this paper.Abstract:
Fast pyrolysis utilizes biomass to produce a product that is used both as an energy source and a feedstock for chemical production. Considerable efforts have been made to convert wood biomass to liquid fuels and chemicals since the oil crisis in mid-1970s. This review focuses on the recent developments in the wood pyrolysis and reports the characteristics of the resulting bio-oils, which are the main products of fast wood pyrolysis. Virtually any form of biomass can be considered for fast pyrolysis. Most work has been performed on wood, because of its consistency and comparability between tests. However, nearly 100 types of biomass have been tested, ranging from agricultural wastes such as straw, olive pits, and nut shells to energy crops such as miscanthus and sorghum. Forestry wastes such as bark and thinnings and other solid wastes, including sewage sludge and leather wastes, have also been studied. In this review, the main (although not exclusive) emphasis has been given to wood. The literature on woo...read more
Citations
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Journal ArticleDOI
Biomass Catalytic Pyrolysis on Ni/ZSM-5: Effects of Nickel Pretreatment and Loading
Matthew M. Yung,Anne K. Starace,Calvin Mukarakate,Allison M. Crow,Marissa A. Leshnov,Kimberly A. Magrini +5 more
TL;DR: In this paper, Ni/ZSM-5 catalysts with varied nickel loadings were evaluated for their ability to produce aromatic hydrocarbons by upgrading of pine pyrolysis vapors.
Journal ArticleDOI
Bioenergy co-products derived from microalgae biomass via thermochemical conversion – Life cycle energy balances and CO2 emissions
TL;DR: In this article, an investigation of the potential to efficiently convert lipid-depleted residual microalgae biomass using thermochemical (gasification at 850°C, pyrolysis at 550°C and torrefaction at 300°C) processes to produce bioenergy derivatives was made.
Journal ArticleDOI
The effect of pyrolysis temperature on recovery of bio-oil as distinctive stage fractions
TL;DR: In this paper, the authors investigated the effect of pyrolysis temperature on the recovery of various products of red oak using a fractionating bio-oil recovery system, and found that the majority of compounds found in the heavy ends of biooil (SF 1-2) ranged from oligomeric monomers to tetramers.
Journal ArticleDOI
Oxygen removal from intact biomass to produce liquid fuel range hydrocarbons via fast-hydropyrolysis and vapor-phase catalytic hydrodeoxygenation
TL;DR: In this article, a novel consecutive two-step biofuel process (H2Bioil), based on fast-hydropyrolysis and downstream vapor-phase catalytic hydrodeoxygenation (HDO), is presented.
References
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