Pyrolytic and kinetic analysis of coastal plant Xanthium sibiricum

The fuel properties of coastal plant Xanthium sibiricum were investigated in thermo- gravimetrics. The distributed activation energy model was employed in the kinetic analysis and a simplified mathematical model that can predict the thermogravimetry curves was proposed. The results show that the ini...

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Published in	Chinese journal of oceanology and limnology Vol. 33; no. 1; pp. 135 - 138
Main Author	王晓宁朱立猛秦松张亦陈刘逸尘孙金生
Format	Journal Article
Language	English
Published	Heidelberg Springer-Verlag 01.01.2015 Science Press Springer Nature B.V
Subjects	activation energy Biology Devolatilization Earth and Environmental Science Earth Sciences Flowers & plants fuels heat Heating rate Kinetics Marine Mathematical analysis Mathematical models Oceanography prediction pyrolysis temperature Thermogravimetry Xanthium Xanthium sibiricum 分布活化能模型动力学分析数学模型植物沿海热解热重曲线苍耳 distributed activation energy model simplified mathematical model thermogravimetric analysis
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ISSN	0254-4059 2096-5508 1993-5005 2523-3521
DOI	10.1007/s00343-015-4048-3

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Abstract	The fuel properties of coastal plant Xanthium sibiricum were investigated in thermo- gravimetrics. The distributed activation energy model was employed in the kinetic analysis and a simplified mathematical model that can predict the thermogravimetry curves was proposed. The results show that the initial decomposition temperature tends to increase with the heating rate. The distributed E values ranged from 169.08 to 177.43 kJ/mol, and the frequency factor values ranged from 6.59×10^8 to 1.22× 10^12/s at different conversion rates. Furthermore, the prediction made with the simplified mathematical model perfectly matched the experimental data, and the model was found to be simple and accurate for the prediction of devolatilization curves.
AbstractList	The fuel properties of coastal plant Xanthium sibiricum were investigated in thermogravimetrics. The distributed activation energy model was employed in the kinetic analysis and a simplified mathematical model that can predict the thermogravimetry curves was proposed. The results show that the initial decomposition temperature tends to increase with the heating rate. The distributed E values ranged from 169.08 to 177.43 kJ/mol, and the frequency factor values ranged from 6.59×10⁸to 1.22×10¹²/s at different conversion rates. Furthermore, the prediction made with the simplified mathematical model perfectly matched the experimental data, and the model was found to be simple and accurate for the prediction of devolatilization curves. The fuel properties of coastal plant Xanthium sibiricum were investigated in thermogravimetrics. The distributed activation energy model was employed in the kinetic analysis and a simplified mathematical model that can predict the thermogravimetry curves was proposed. The results show that the initial decomposition temperature tends to increase with the heating rate. The distributed E values ranged from 169.08 to 177.43 kJ/mol, and the frequency factor values ranged from 6.59×10 8 to 1.22×10 12 /s at different conversion rates. Furthermore, the prediction made with the simplified mathematical model perfectly matched the experimental data, and the model was found to be simple and accurate for the prediction of devolatilization curves. The fuel properties of coastal plant Xanthium sibiricum were investigated in thermogravimetrics. The distributed activation energy model was employed in the kinetic analysis and a simplified mathematical model that can predict the thermogravimetry curves was proposed. The results show that the initial decomposition temperature tends to increase with the heating rate. The distributed E values ranged from 169.08 to 177.43 kJ/mol, and the frequency factor values ranged from 6.59×108 to 1.22×1012/s at different conversion rates. Furthermore, the prediction made with the simplified mathematical model perfectly matched the experimental data, and the model was found to be simple and accurate for the prediction of devolatilization curves. The fuel properties of coastal plant Xanthium sibiricum were investigated in thermo- gravimetrics. The distributed activation energy model was employed in the kinetic analysis and a simplified mathematical model that can predict the thermogravimetry curves was proposed. The results show that the initial decomposition temperature tends to increase with the heating rate. The distributed E values ranged from 169.08 to 177.43 kJ/mol, and the frequency factor values ranged from 6.59×10^8 to 1.22× 10^12/s at different conversion rates. Furthermore, the prediction made with the simplified mathematical model perfectly matched the experimental data, and the model was found to be simple and accurate for the prediction of devolatilization curves. The fuel properties of coastal plant Xanthium sibiricum were investigated in thermogravimetrics. The distributed activation energy model was employed in the kinetic analysis and a simplified mathematical model that can predict the thermogravimetry curves was proposed. The results show that the initial decomposition temperature tends to increase with the heating rate. The distributed E values ranged from 169.08 to 177.43 kJ/mol, and the frequency factor values ranged from 6.5910 super(8) to 1.2210 super(12)/s at different conversion rates. Furthermore, the prediction made with the simplified mathematical model perfectly matched the experimental data, and the model was found to be simple and accurate for the prediction of devolatilization curves.
Author	Zhu, Limeng Qin, Song Liu, Yichen Zhang, Yichen Sun, Jinsheng Li, Lili Wang, Xiaoning
AuthorAffiliation	Tianjin Key Laboratory of Animal and Plant Resistance~College of Life Science, Tianjin Normal University, Tianjin 300387, China Yantai Institute of Coastal Zone Research, Chinese Academy of Sciences, Yantai 264003, China College of Chemical and Environmental Engineering, Shandong University of Science and Technology, Qingdao 266590, China Tianjin Center for Control andPrevention of AquaticAnimallnfectious Disease, Tianjin 300221, China
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CitedBy_id	crossref_primary_10_1016_j_foodchem_2017_03_008 crossref_primary_10_6023_cjoc202204035
Cites_doi	10.1007/s10973-013-3163-7 10.1016/j.fuproc.2006.09.002 10.1016/j.joei.2014.03.019 10.1007/s10973-013-3115-2 10.1016/j.biortech.2007.06.033 10.1016/j.biortech.2011.10.008 10.1021/ef970212q 10.1016/j.enconman.2012.08.017 10.1016/j.biortech.2010.09.081
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Notes	The fuel properties of coastal plant Xanthium sibiricum were investigated in thermo- gravimetrics. The distributed activation energy model was employed in the kinetic analysis and a simplified mathematical model that can predict the thermogravimetry curves was proposed. The results show that the initial decomposition temperature tends to increase with the heating rate. The distributed E values ranged from 169.08 to 177.43 kJ/mol, and the frequency factor values ranged from 6.59×10^8 to 1.22× 10^12/s at different conversion rates. Furthermore, the prediction made with the simplified mathematical model perfectly matched the experimental data, and the model was found to be simple and accurate for the prediction of devolatilization curves. Xanthium sibiricum; thermogravimetric analysis; distributed activation energy model; simplifiedmathematical model WANG Xiaoning , ZHU Limeng , QIN Song , ZHANG Yichen , LIU Yichen , SUN Jinsheng , LI Lili （ 1.Tianjin Key Laboratory of Animal and Plant Resistance/College of Life Science, Tianjin Normal University, Tianjin 300387, China; 2 .Yantai Institute of Coastal Zone Research, Chinese Academy of Sciences, Yantai 264003, China; 3. College of Chemieal and Environmental Engineering, Shandong University of Science and Technology, Qingdao 266590, China ;4. Tianjin Center for Control andPrevention of AquaticAnimalInfectious Disease, Tianjin 300221, China） 37-1150/P http://dx.doi.org/10.1007/s00343-015-4048-3 ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23
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SubjectTerms	activation energy Biology Devolatilization Earth and Environmental Science Earth Sciences Flowers & plants fuels heat Heating rate Kinetics Marine Mathematical analysis Mathematical models Oceanography prediction pyrolysis temperature Thermogravimetry Xanthium Xanthium sibiricum 分布活化能模型动力学分析数学模型植物沿海热解热重曲线苍耳
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