Journal ArticleDOI
Bio-oils obtained by vacuum pyrolysis of softwood bark as a liquid fuel for gas turbines. Part II: Stability and ageing of bio-oil and its blends with methanol and a pyrolytic aqueous phase
TLDR
In this paper, the stability and ageing of the bio-oil and mixtures thereof were evaluated and it was found that the molecular weight increase after heating the biooil for one week at 80°C was equivalent to keeping the sample for one year at room temperature.Abstract:
This paper completes a study the ultimate objective of which was to provide background information on biomass pyrolysis oils (bio-oils) regarding their use as a gas turbine liquid fuel. The bio-oil was obtained by vacuum pyrolysis of softwood bark residues. The stability and ageing of the bio-oil and mixtures thereof were evaluated. The samples were stored at 40, 50 and 80°C for up to 168 h and at room temperature for up to one year, period after which the phase separation time, viscosity, solid and water content and average molecular weight were measured. The results indicated that the properties of the bio-oil were significantly altered when the bio-oil was heated at 80°C, but that the variations after heating at 40 and 50°C were not critical. It was found that the molecular weight increase after heating the bio-oil for one week at 80°C was equivalent to keeping the sample for one year at room temperature. The addition of aqueous phase to the bio-oil lowered its thermal stability significantly. A rapid phase separation occurred after heating at 80°C and, therefore, the total aqueous phase concentration in the bio-oil must be limited to 15%. Ageing of the raw bio-oil at room temperature resulted in a dramatic viscosity increase during the first 65 days, period after which a plateau was reached. The addition of methanol to the bio-oil was beneficial for the bio-oil properties as well as for the stability of the bio-oil and its mixtures. Methanol dissolved some structured components of the bio-oil and thus reduced the viscosity increase rate. Moreover, the addition of methanol to the bio-oil/pyrolytic aqueous phase mixtures delayed the phase separation process.read more
Citations
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Journal ArticleDOI
Pyrolysis of Wood/Biomass for Bio-oil: A Critical Review
TL;DR: 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.
Journal ArticleDOI
A review of catalytic upgrading of bio-oil to engine fuels
Peter Mølgaard Mortensen,Jan-Dierk Grunwaldt,Peter Arendt Jensen,K.G. Knudsen,Anker Degn Jensen +4 more
TL;DR: In this article, two general routes for bio-oil upgrading have been considered: hydrodeoxygenation (HDO) and zeolite cracking, where zeolites, e.g. HZSM-5, are used as catalysts for the deoxygenization reaction.
Journal ArticleDOI
Pyrolysis of biomass to produce fuels and chemical feedstocks
TL;DR: In this article, a review of new studies on pyrolysis of biomass to produce fuels and chemical feedstocks is presented, where a number of biomass species, varying from woody and herbaceous biomass to municipal solid waste, food processing residues and industrial wastes, were subjected to different pyropolysis conditions to obtain liquid, gas and solid products.
Journal ArticleDOI
Production and utilization of biochar: A review
Jin Sun Cha,Sunghoon Park,Sang-Chul Jung,Changkook Ryu,Jong-Ki Jeon,Min Chul Shin,Young-Kwon Park +6 more
TL;DR: In this paper, researches on biochar are discussed in terms of production method and application, and different processes for biochar production, such as pyrolysis, gasification, hydrothermal carbonization, etc.
Journal ArticleDOI
Overview of fuel properties of biomass fast pyrolysis oils
Qiang Lu,Wenzhi Li,Xifeng Zhu +2 more
TL;DR: In this paper, the detailed fuel properties of bio-oils are discussed and discussed how these properties affect the utilization of Bio-Oils in terms of converting biomass to liquid fuels.
References
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Journal ArticleDOI
Additives To Lower and Stabilize the Viscosity of Pyrolysis Oils during Storage
James P. Diebold,Stefan Czernik +1 more
TL;DR: In this article, three chemical families were investigated to stabilize the viscosity of biocrude during long-term storage and showed the ability to drastically reduce the aging rate of bi-products.
Book
Modern size-exclusion liquid chromatography : practice of gel permeation and gel filtration chromatography
TL;DR: Details of Gel Permeation Chromatography Applications and Techniques of Modern Gel Filtration Chromatography are provided.
Journal ArticleDOI
Stability of wood fast pyrolysis oil
TL;DR: In this paper, the effects of storage conditions on physical and chemical properties of biomass fast pyrolysis oils exposed to elevated temperatures over extended periods of time were evaluated using GPC (molecular weight distribution) and FTIR spectroscopy.
Journal ArticleDOI
Bio-oils obtained by vacuum pyrolysis of softwood bark as a liquid fuel for gas turbines. Part I: Properties of bio-oil and its blends with methanol and a pyrolytic aqueous phase
TL;DR: In this article, the effect of methanol and/or a pyrolytic aqueous phase on the physicochemical properties of bio-oils was investigated, and the results indicated that the bio-oil sample investigated is a valuable gas turbine fuel: it has a relatively low Na+K+Ca content (21ppm), a low viscosity ( 5.3 cSt @90°C ), a high net heating value (32MJ/kg, as-received basis) and a low solid content (0.34 wt%).
Physical characterisation of biomass-based pyrolysis liquids: Application of standard fuel oil analyses
TL;DR: In this paper, the applicability of standard fuel oil methods developed for petroleum-based fuels to pyrolysis liquids was investigated and the results showed that most of the methods can be used as such but the accuracy of the analysis can be improved by minor modifications.