"Separation of Biomass Pyrolysis Oil by Supercritical CO2 Extraction"
written by Jinghua Wang, Hongyou Cui, Shuqin Wei, Shuping Zhuo, Lihong Wang, Zhihe Li, Weiming Yi,
published by Smart Grid and Renewable Energy, Vol.1 No.2, 2010
has been cited by the following article(s):
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[1] Supercritical Carbon Dioxide Extraction of Lignocellulosic Bio-Oils: The Potential of Fuel Upgrading and Chemical Recovery
[2] Progress of the applications of bio-oil
[3] Challenges and Opportunities for Bio-oil Refining: A Review
[4] Extraction and purification of renewable chemicals from hydrothermal liquefaction bio-oil using supercritical carbon dioxide: A techno-economic evaluation
[5] Modélisation compositionnelle et cinétique des bio-huiles de pyrolyse rapide issues de la biomasse lignocellulosique
[6] Koksnes pirolīzes kondensātu preparatīva sadalīšana un analīze ar šķidruma hromatogrāfijas metodēm
[7] The effect of wood composition and supercritical CO2 extraction on charcoal production in ferroalloy industries
[8] Effect of extraction methods on physicochemical, nutritional, antinutritional, antioxidant and antimicrobial activity of Moringa (Moringa oleifera Lam.) seed kernel oil
[9] Fractionation of Pyrolysis Liquids with Supercritical Carbon Dioxide
[10] Production, Prospects and Potential Application of Pyroligneous Acid in Agriculture
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[11] Application of Microbubbles Generated by Fluidic Oscillation in the Upgrading of Bio Fuels
[12] Lignin for Sustainable Bioproducts and Biofuels
[13] Analytical Strategies Involved in the Detailed Componential Characterization of Biooil Produced from Lignocellulosic Biomass
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[14] Supercritical carbon dioxide separation of carboxylic acids and phenolics from bio-oil of lignocellulosic origin: Understanding bio-oil compositions, compound …
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[15] Enzyme-based Biomass Catalyzed Reactions in Supercritical CO2
[16] Supercritical Carbon Dioxide Separation of Carboxylic Acids and Phenolics from Bio-Oil of Lignocellulosic Origin: Understanding Bio-Oil Compositions, Compound Solubilities, and Their Fractionation
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[17] Development of pyrolysis process models for the production of lignin based phenols using Aspen Plus®
[18] Supercritical carbon dioxide extraction of fast pyrolysis oil from softwood
The Journal of Supercritical Fluids, 2017
[19] Staged thermal fractionation for segregation of lignin and cellulose pyrolysis products: An experimental study of residence time and temperature effects
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[20] Catalytic upgrading of bio oil model compound into polyol ester via green alginate catalyzed esterification reaction
Process Safety and Environmental Protection, 2017
[21] Analytical Strategies Involved in the Detailed Componential Characterization of Bio-oil Produced from Lignocellulosic Biomass
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[22] Effect of supercritical carbon dioxide conditions on extraction of food phytochemical constituents from Moringa oleifera. Lam seed kernels
International Journal of Food and Fermentation Technology, 2016
[23] Assesing the joint potential of CO2 enhanced oil recovery and CO2 plume geothermal energy extraction
[24] Assessing the joint potential for CO2-enhanced oil recovery and CO2-plume geothermal energy production
[25] 生物油性质及分离纯化的研究进展
广州化工, 2015
[26] Extraction of phenols from lignin microwave-pyrolysis oil using a switchable hydrophilicity solvent
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[27] Overview of Analytical Methods Used for Chemical Characterization of Pyrolysis Bio-oil
Energy & Fuels, 2014
[28] Extraction of phenolic compounds from crude pyrolysis oil
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[29] Research highlights–Extraction of phenolic compounds from crude pyrolysis oil
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[30] Extraction of value-added chemicals from pyrolysis liquids with supercritical carbon dioxide
Journal of Analytical and Applied Pyrolysis, 2014
[31] Pyrolysis of wood and bamboo wastes environmentally friendly to produce acetic acid
Dissertations and Theses, 2011
[32] 超临界CO2 萃取分离生物油
山东理工大学学报: 自然 …, 2010