Journal ArticleDOI
Co-pyrolysis of pine cone with synthetic polymers
TLDR
In this paper, pine cone was co-pyrolyzed with synthetic polymers (PE, PP and PS) in order to investigate the effect of biomass and plastic nature on the product yields and quality of pyrolysis oils and chars.About:
This article is published in Fuel.The article was published on 2010-08-01. It has received 281 citations till now. The article focuses on the topics: Char & Pyrolysis.read more
Citations
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An overview of the organic and inorganic phase composition of biomass
TL;DR: An extended overview of the organic and inorganic phase composition of biomass was conducted in this article, where reference peer-reviewed data and own investigations for various minor organic components and minerals, and modes of element occurrence identified in biomass were also applied and organized to describe the biomass systematically.
Journal ArticleDOI
A review on co-pyrolysis of biomass: An optional technique to obtain a high-grade pyrolysis oil
TL;DR: In this paper, the authors reviewed the co-pyrolysis process through several points of view, including the process mechanism, feedstock, exploration on co- pyrolyisation studies, co-PyROlysis phenomena, characteristics of byproducts, and economic assessment.
Journal ArticleDOI
Thermochemical routes for the valorization of waste polyolefinic plastics to produce fuels and chemicals. A review
TL;DR: In this paper, the main thermochemical routes for the valorization of waste polyolefins to produce chemicals and fuels are analyzed for the purpose of producing more sustainable waste management policies.
Journal ArticleDOI
Co-pyrolysis of biomass and waste plastics as a thermochemical conversion technology for high-grade biofuel production: Recent progress and future directions elsewhere worldwide
Benjamin Bernard Uzoejinwa,Benjamin Bernard Uzoejinwa,Xiuhua He,Shuang Wang,Abd El-Fatah Abomohra,Abd El-Fatah Abomohra,Yamin Hu,Qian Wang +7 more
TL;DR: In this paper, a review of previous studies, recent advances, and future directions on co-pyrolysis of biomass and waste plastics for high-grade biofuel production particularly in China and elsewhere worldwide is presented.
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Biomass pyrolysis: A review of the process development and challenges from initial researches up to the commercialisation stage
Xun Hu,Mortaza Gholizadeh +1 more
TL;DR: In this article, a review of various pyrolysis process, especially focusing on the effects of essential parameters, the process design, the reactors and the catalysts on the process, is presented.
References
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Journal ArticleDOI
Mechanisms of liquefaction and pyrolysis reactions of biomass
TL;DR: In the liquefaction process, the micellar-like broken down fragments produced by hydrolysis are degraded to smaller compounds by dehydration, dehydrogenation, deoxygenation and decarboxylation as mentioned in this paper.
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Biodegradable polymers/bamboo fiber biocomposite with bio-based coupling agent
Seung-Hwan Lee,Siqun Wang +1 more
TL;DR: In this paper, the effects of lysine-based diisocyanate (LDI) as a coupling agent on the properties of biocomposite from poly (lactic acid) (PLA), poly (butylene succinate) (PBS) and bamboo fiber (BF) were investigated.
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Kinetics of the Thermal and Thermo-Oxidative Degradation of Polystyrene, Polyethylene and Poly(propylene)
TL;DR: In this article, the thermal degradations of polystyrene (PS), polyethylene (PE), and poly(propylene) (PP) have been studied in both inert nitrogen and air atmospheres by using thermogravimetry and differential scanning calorimetry.
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Characterization of biomass-based flash pyrolysis oils
TL;DR: In this paper, an analytical scheme for the characterization of biomass-based flash pyrolysis oils was developed based on fractionation of the oils with water and on further extraction of the water-soluble fraction with diethylether.
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Thermogravimetric characteristics and kinetic of plastic and biomass blends co-pyrolysis
TL;DR: In this article, the co-pyrolytic behavior of plastic/biomass mixtures was investigated using a thermogravimetric analyser under a heating rate of 20°C/min from room temperature to 650°C, where the difference of weight loss (Δ W ) between experimental and theoretical ones, calculated as algebraic sums of those from each separated component, is about 6-12% at 530-650°C.