Comparative investigation on thermal decomposition of powdered and pelletized biomasses: Thermal conversion characteristics and apparent kinetics

•Macro-thermogravimetric analysis was performed under three oxygen concentrations.•Hysteresis phenomenon was observed during thermal degradation of biomass pellets.•Kinetics was evaluated using DAEM and Coats-Redfern method. In this work, the thermal degradation behaviors of two kinds of biomasses (...

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Published in:Bioresource technology 2020-04, Vol.301, p.122732-122732, Article 122732
Main Authors: Guo, Gaofei, Zhang, Ke, Liu, Chaoxian, Xie, Shenglin, Li, Xu, Li, Bin, Shu, Junsheng, Niu, Yong, Zhu, Hongfu, Ding, Meizhou, Zhu, Wenkui
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Language:English
Subjects:
activation energy
biochar
Biomass
Biomass pellet
Combustion
heat transfer
Hot Temperature
hysteresis
Kinetics
Macro-thermogravimetric analyzer
oxygen
pellets
Powders
Pyrolysis
rice hulls
technology
thermal degradation
Thermogravimetry
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cited_by cdi_FETCH-LOGICAL-c401t-8b1235f7a8cbf75935f2bb93652d88eed0a68b190802ebc557d17e500022f68f3
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container_issue
container_start_page 122732
container_title Bioresource technology
container_volume 301
creator Guo, Gaofei
Zhang, Ke
Liu, Chaoxian
Xie, Shenglin
Li, Xu
Li, Bin
Shu, Junsheng
Niu, Yong
Zhu, Hongfu
Ding, Meizhou
Zhu, Wenkui
description •Macro-thermogravimetric analysis was performed under three oxygen concentrations.•Hysteresis phenomenon was observed during thermal degradation of biomass pellets.•Kinetics was evaluated using DAEM and Coats-Redfern method. In this work, the thermal degradation behaviors of two kinds of biomasses (pinewood and rice husk) with powder and pellet under three oxygen concentrations were investigated by a self-designed macro-thermogravimetric analyzer. An obvious hysteresis of thermal degradation of biomass pellets was observed under three conditions. The maximum activation energy of biomass pellets was significantly greater than that of biomass powders, while their average activation energies were almost equal based on distributed activation energy model. For the oxygen-rich combustion, the comprehensive combustion character index of powdered and pelletized biomasses ranged from 3.92 × 10−7 to 5.16 × 10−7%2·min−2·°C−3 and from 1.82 × 10−7 to 1.91 × 10−7%2·min−2·°C−3, respectively. Furthermore, the derived biochar of powdered biomass has a higher caloricity than that of pelletized biomass during combustion by TG-DSC analysis. The performances of thermal degradation observed by macro-thermogravimetric analyzer could factually reveal the influence of mass and heat transfer on the thermochemical conversion of powdered and pelletized biomasses.
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subjects activation energy
biochar
Biomass
Biomass pellet
Combustion
heat transfer
Hot Temperature
hysteresis
Kinetics
Macro-thermogravimetric analyzer
oxygen
pellets
Powders
Pyrolysis
rice hulls
technology
thermal degradation
Thermogravimetry
title Comparative investigation on thermal decomposition of powdered and pelletized biomasses: Thermal conversion characteristics and apparent kinetics
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