Pyrolysis characteristics and products distribution of haematococcus pluvialis microalgae and its extraction residue

Pyrolysis characteristics of microalgae (MA) and its chemical extraction residue (MR) were evaluated and compared using a thermal analyzer and a tube furnace reactor. Results showed that the pyrolysis process of MA and MR can be divided into three stages, which corresponded to the volatile of free w...

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Published inRenewable energy Vol. 146; pp. 2134 - 2141
Main Authors Gong, Zhiqiang, Fang, Peiwen, Wang, Zhenbo, Li, Xiaoyu, Wang, Zhentong, Meng, Fanzhi
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2020
Subjects
activation energy
carbon dioxide
carbon monoxide
furnaces
gases
Haematococcus pluvialis
hydrogen
Kinetic analysis
lipids
methane
Microalgae
Microalgae residue
Pyrolysis
pyrolysis oils
Pyrolysis products
value added
waste treatment
weight loss
Microalgae residue
Pyrolysis
Kinetic analysis
Microalgae
Pyrolysis products
Online AccessGet full text
ISSN0960-1481
1879-0682
DOI10.1016/j.renene.2019.06.080

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Abstract Pyrolysis characteristics of microalgae (MA) and its chemical extraction residue (MR) were evaluated and compared using a thermal analyzer and a tube furnace reactor. Results showed that the pyrolysis process of MA and MR can be divided into three stages, which corresponded to the volatile of free water, the decomposition of organic compounds and the stabilization of residues, respectively. Due to the removal of lipids after MA extraction, only one weight loss peak was recorded in the second stage of MR. Using the methods of Friedman, FWO and Starink, the average activation energies of MA and MR were calculated as 204.72 and 178.51 kJ/mol, respectively. Pyrolysis oil, gas, and char products were obtained from both MA and MR pyrolysis. Main gas products from pyrolysis of MA and MR contained CO2, CO, H2 and CHs. Compared with MA pyrolysis, the relative contents of CHs were lower (<59%) during MR pyrolysis, but the contents of CH4 were higher. Results for higher hydrocarbons (C4-6, C6+) were lower in MR than in MA pyrolysis. MR pyrolysis can be a promising method for the waste treatment with high value-added pyrolysis liquid and gases products. [Display omitted] •Pyrolysis kinetics of MA and MR were investigated and compared.•Distribution of pyrolysis products was comprehensively studied.•Average activation energies of MA and MR were 63.29 kJ/mol and 50.28 kJ/mol.•Higher hydrocarbons (C4-6, C6+) were lower in MR than in MA pyrolysis.
AbstractList Pyrolysis characteristics of microalgae (MA) and its chemical extraction residue (MR) were evaluated and compared using a thermal analyzer and a tube furnace reactor. Results showed that the pyrolysis process of MA and MR can be divided into three stages, which corresponded to the volatile of free water, the decomposition of organic compounds and the stabilization of residues, respectively. Due to the removal of lipids after MA extraction, only one weight loss peak was recorded in the second stage of MR. Using the methods of Friedman, FWO and Starink, the average activation energies of MA and MR were calculated as 204.72 and 178.51 kJ/mol, respectively. Pyrolysis oil, gas, and char products were obtained from both MA and MR pyrolysis. Main gas products from pyrolysis of MA and MR contained CO2, CO, H2 and CHs. Compared with MA pyrolysis, the relative contents of CHs were lower (<59%) during MR pyrolysis, but the contents of CH4 were higher. Results for higher hydrocarbons (C4-6, C6+) were lower in MR than in MA pyrolysis. MR pyrolysis can be a promising method for the waste treatment with high value-added pyrolysis liquid and gases products.
Pyrolysis characteristics of microalgae (MA) and its chemical extraction residue (MR) were evaluated and compared using a thermal analyzer and a tube furnace reactor. Results showed that the pyrolysis process of MA and MR can be divided into three stages, which corresponded to the volatile of free water, the decomposition of organic compounds and the stabilization of residues, respectively. Due to the removal of lipids after MA extraction, only one weight loss peak was recorded in the second stage of MR. Using the methods of Friedman, FWO and Starink, the average activation energies of MA and MR were calculated as 204.72 and 178.51 kJ/mol, respectively. Pyrolysis oil, gas, and char products were obtained from both MA and MR pyrolysis. Main gas products from pyrolysis of MA and MR contained CO2, CO, H2 and CHs. Compared with MA pyrolysis, the relative contents of CHs were lower (<59%) during MR pyrolysis, but the contents of CH4 were higher. Results for higher hydrocarbons (C4-6, C6+) were lower in MR than in MA pyrolysis. MR pyrolysis can be a promising method for the waste treatment with high value-added pyrolysis liquid and gases products. [Display omitted] •Pyrolysis kinetics of MA and MR were investigated and compared.•Distribution of pyrolysis products was comprehensively studied.•Average activation energies of MA and MR were 63.29 kJ/mol and 50.28 kJ/mol.•Higher hydrocarbons (C4-6, C6+) were lower in MR than in MA pyrolysis.
Author Wang, Zhentong
Meng, Fanzhi
Fang, Peiwen
Gong, Zhiqiang
Wang, Zhenbo
Li, Xiaoyu
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Keywords Microalgae residue
Pyrolysis
Kinetic analysis
Microalgae
Pyrolysis products
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Snippet Pyrolysis characteristics of microalgae (MA) and its chemical extraction residue (MR) were evaluated and compared using a thermal analyzer and a tube furnace...
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SubjectTerms activation energy
carbon dioxide
carbon monoxide
furnaces
gases
Haematococcus pluvialis
hydrogen
Kinetic analysis
lipids
methane
Microalgae
Microalgae residue
Pyrolysis
pyrolysis oils
Pyrolysis products
value added
waste treatment
weight loss
Title Pyrolysis characteristics and products distribution of haematococcus pluvialis microalgae and its extraction residue
URI https://dx.doi.org/10.1016/j.renene.2019.06.080
https://www.proquest.com/docview/2305178237
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