Segmented heating carbonization of biomass: Yields, property and estimation of heating value of chars

To provide preferable operating conditions for biomass carbonization, the carbonization properties of maize straw, cotton stalk and poplar wood were investigated in nitrogen atmosphere by segmented heating process at different final temperatures of 300–800 °C for 1 h. Segmented heating carbonization...

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Bibliographic Details
Published in:Energy (Oxford) 2018-02, Vol.144, p.301-311
Main Authors: Qi, Jianhui, Zhao, Jianli, Xu, Yang, Wang, Yongjia, Han, Kuihua
Format: Article
Language:English
Subjects:
Biomass
Biomass upgrading
Calorific value
Carbon dioxide
Carbonization
Corn
Correlation analysis
Cotton
Energy consumption
Errors
Fuel property
Heating
Higher heating value
Low level
Nitrogen
Poplar
Pretreatment
Straw
Sulfur
Temperature effects
Wood
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Summary:To provide preferable operating conditions for biomass carbonization, the carbonization properties of maize straw, cotton stalk and poplar wood were investigated in nitrogen atmosphere by segmented heating process at different final temperatures of 300–800 °C for 1 h. Segmented heating carbonization contributes to higher ratio of mass and energy yields than a constant temperature/linear heating process with final temperature of around 300 °C. The fuel properties and characteristics of raw and carbonized biomass were analysed systematically. Increasing carbonization temperature, the fuel ratios of the obtained chars rise exponentially, and the profile of atomic H/C ratio versus atomic O/C ratio approximately decreases linearly. There are small changes of sulphur and nitrogen content in the chars. To provide an estimation method for higher heating value for torrefied/carbonized biomass, a new correlation is proposed based on ultimate analysis. The correlation is HHV=19.9579+0.1284C+0.3355H−0.1209O−1.3836N−5.4680S, which is validated through experimental data. The correlation has a low level of errors, that the correlation efficient, mean absolute error, average absolute error and average bias error are 0.971, −6.75×10−6MJ, 1.2% and 0.02% respectively. This work will make a contribution to the biomass pretreatment process. •Segmented heating carbonization contributes to higher ratio of mass and energy yields.•Increasing carbonization temperature, the fuel ratios of chars rise exponentially.•Increasing carbonization temperature, atomic H/C to O/C ratio decreases linearly.•A new correlation is proposed to predict the higher heating value for biomass chars.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2017.12.036