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
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Journal ArticleDOI
Pyrolysis characteristics of Oriental white oak: Kinetic study and fast pyrolysis in a fluidized bed with an improved reaction system
Hyun Ju Park,Young-Kwon Park,Jong In Dong,Joo Sik Kim,Jong Ki Jeon,Seung-Soo Kim,Jinsoo Kim,Byung-Ho Song,Junhong Park,Kyung Jin Lee +9 more
TL;DR: The kinetic parameters for the pyrolysis of Oriental white oak were evaluated by thermogravimetric analysis (TGA) as mentioned in this paper, which showed that the white oak decomposed at temperatures ranging from 250 to 400°C.
Journal ArticleDOI
Intrinsic kinetics, thermodynamic parameters and reaction mechanism of non-isothermal degradation of torrefied Acacia nilotica using isoconversional methods
TL;DR: In this article, the suitability of torrefied biomass for bio-energy generation by investigating physicochemical characteristics, kinetic and thermodynamic parameters as well as reaction mechanism during pyrolysis was examined.
Journal ArticleDOI
Catalytic pyrolysis of biomass in inert and steam atmospheres
TL;DR: In this paper, the authors investigated thermal conversion of a perennial shrub, Euphorbia rigida biomass sample with catalyst in inert (N 2 ) and steam atmospheres to determine the effect of different atmospheres with various catalyst ratios on pyrolysis yields and characteristics.
Journal ArticleDOI
Upgrading of Bio-oil by Catalytic Esterification and Determination of Acid Number for Evaluating Esterification Degree
TL;DR: In this article, the acid number of bio-oil was determined by potentiometric titration using catalytic esterification over the selected catalysts of 732 and NKC-9 type ion exchange resins.
Journal ArticleDOI
Valorisation of forestry waste by pyrolysis in an auger reactor
Neus Puy,Ramón Murillo,M.V. Navarro,José Manuel López,Joan Rieradevall,G. Fowler,Ignacio Aranguren,Tomás García,Jordi Bartrolí,Ana M. Mastral +9 more
TL;DR: The initial steps for the future scaling up of the auger reactor are presented with the aim of converting it into a mobile plant which will be able to remotely process biomass such as energy crops, forestry and agricultural wastes to obtain bio-oil that, in turn, can be used as energy vector to avoid high transport costs.
References
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Journal ArticleDOI
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TL;DR: In this paper, the authors demonstrate that cellulose can be dissolved without activation or pretreatment in, and regenerated from, 1-butyl-3-methylimidazolium chloride and other hydrophilic ionic liquids.
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Energy production from biomass (Part 1): Overview of biomass.
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Overview of Applications of Biomass Fast Pyrolysis Oil
TL;DR: In this article, the authors reviewed scientific and technical developments in applications of bio-oil to date and concluded with some suggestions for research and strategic developments, and concluded that biooil is a renewable liquid fuel and can also be used for production of chemicals.
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Energy production from biomass. (Part 2): Conversion technologies
TL;DR: A brief review of the main conversion processes is presented, with specific regard to the production of a fuel suitable for spark ignition gas engines.
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Renewable fuels and chemicals by thermal processing of biomass
TL;DR: In this article, a review of thermal conversion processes and particularly the reactors that have been developed to provide the necessary conditions to optimise performance is presented, and the main technical and non-technical barriers to implementation are identified.