Thermal inertias and confidence intervals in the determination of activation energy by isoconversional methods applied for accelerating rate calorimetry

•The sets of thermal inertia in isoconversional methods were studied.•The Vyazovkin method was used for accelerating rate calorimetry (ARC) data.•The confidence intervals of activation energy from ARC data were estimated. Isoconversional method has been preliminarily applied in accelerating rate cal...

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Published inThermochimica acta Vol. 716; p. 179290
Main Authors Yang, Suijun, Ding, Jiong, Zhang, Xingci, Ye, Shuliang, Guo, Zichao, Chen, Wanghua
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2022
Subjects
Activation energy
Confidence intervals
Friedman method
Thermal inertia
Vyazovkin method
Confidence intervals
Activation energy
Friedman method
Thermal inertia
Vyazovkin method
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Abstract •The sets of thermal inertia in isoconversional methods were studied.•The Vyazovkin method was used for accelerating rate calorimetry (ARC) data.•The confidence intervals of activation energy from ARC data were estimated. Isoconversional method has been preliminarily applied in accelerating rate calorimetry (ARC) and achieved good results. However, it is a new subject and needs to be explored in depth. In this study, the Friedman and the Vyazovkin methods were applied to investigate the influences of thermal inertia on the activation energy estimation of the single-step reaction and autocatalytic reaction. The accuracy and adaptability of the two kinetic methods are compared, and the confidence intervals for activation energy estimated by the Friedman and the Vyazovkin methods are evaluated based on the corrected Student's distribution and F distribution. Finally, the validity of the simulation result is verified by the experiments. The results show that the sets of thermal inertia have different effects on the estimation of activation energy in single-step reaction and multi-step reaction, and the activation energies in multi-step reaction change obviously under different sets of thermal inertia. The thermal inertia increment of 0.03-0.5 and the Vyazovkin method are recommended. This study is helpful to promote the development of isoconversional methods applied for ARC data.
AbstractList •The sets of thermal inertia in isoconversional methods were studied.•The Vyazovkin method was used for accelerating rate calorimetry (ARC) data.•The confidence intervals of activation energy from ARC data were estimated. Isoconversional method has been preliminarily applied in accelerating rate calorimetry (ARC) and achieved good results. However, it is a new subject and needs to be explored in depth. In this study, the Friedman and the Vyazovkin methods were applied to investigate the influences of thermal inertia on the activation energy estimation of the single-step reaction and autocatalytic reaction. The accuracy and adaptability of the two kinetic methods are compared, and the confidence intervals for activation energy estimated by the Friedman and the Vyazovkin methods are evaluated based on the corrected Student's distribution and F distribution. Finally, the validity of the simulation result is verified by the experiments. The results show that the sets of thermal inertia have different effects on the estimation of activation energy in single-step reaction and multi-step reaction, and the activation energies in multi-step reaction change obviously under different sets of thermal inertia. The thermal inertia increment of 0.03-0.5 and the Vyazovkin method are recommended. This study is helpful to promote the development of isoconversional methods applied for ARC data.
ArticleNumber 179290
Author Guo, Zichao
Yang, Suijun
Ye, Shuliang
Zhang, Xingci
Chen, Wanghua
Ding, Jiong
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  givenname: Wanghua
  surname: Chen
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  organization: Department of Safety Engineering, School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing, Jiangsu 210094, China
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Keywords Confidence intervals
Activation energy
Friedman method
Thermal inertia
Vyazovkin method
Language English
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Snippet •The sets of thermal inertia in isoconversional methods were studied.•The Vyazovkin method was used for accelerating rate calorimetry (ARC) data.•The...
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StartPage 179290
SubjectTerms Activation energy
Confidence intervals
Friedman method
Thermal inertia
Vyazovkin method
Title Thermal inertias and confidence intervals in the determination of activation energy by isoconversional methods applied for accelerating rate calorimetry
URI https://dx.doi.org/10.1016/j.tca.2022.179290
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