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Junmeng Cai

Showing results (1-10 of 17) with videos related to

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Bioresource Technology|November 8, 2011
Iterative linear integral isoconversional method: theory and applicationJunmeng Cai, Yong Chen
The Journal of Physical Chemistry. B|August 21, 2007
Weibull mixture model for modeling nonisothermal kinetics of thermally stimulated solid-state reactions: application to simulated and real kinetic conversion dataJunmeng Cai, Ronghou Liu
Journal of Computational Chemistry|January 9, 2009
A new iterative linear integral isoconversional method for the determination of the activation energy varying with the conversion degreeJunmeng Cai, Siyu Chen
Bioresource Technology|August 19, 2007
New distributed activation energy model: numerical solution and application to pyrolysis kinetics of some types of biomassJunmeng Cai, Ronghou Liu
Bioresource Technology|January 3, 2013
Sensitivity analysis of three-parallel-DAEM-reaction model for describing rice straw pyrolysisJunmeng Cai, Weixuan Wu, Ronghou Liu
Bioresource Technology|December 8, 2010
Logistic distributed activation energy model--part 2: application to cellulose pyrolysisJunmeng Cai, Songyuan Yang, Tao Li
Bioresource Technology|December 24, 2010
A critical study of the Miura-Maki integral method for the estimation of the kinetic parameters of the distributed activation energy modelJunmeng Cai, Tao Li, Ronghou Liu
Bioresource Technology|August 11, 2018
Synergetic effects during co-pyrolysis of biomass and waste tire: A study on product distribution and reaction kineticsLinzheng Wang, Meiyun Chai, Ronghou Liu, et al.
Bioresource Technology|September 18, 2010
Logistic distributed activation energy model--Part 1: Derivation and numerical parametric studyJunmeng Cai, Chuan Jin, Songyuan Yang, et al.
Bioresource Technology|February 13, 2022
Investigation of product selectivity and kinetics of poplar sawdust catalytic pyrolysis over bi-metallic Iron-Nickel/ZSM-5 catalystYingkai Li, Dominic Yellezuome, Ronghou Liu, et al.
Pageof 2

Showing results (1-10 of 17) with videos related to

Sort By:
Pageof 2
Bioresource Technology|November 8, 2011
Iterative linear integral isoconversional method: theory and applicationJunmeng Cai, Yong Chen
The Journal of Physical Chemistry. B|August 21, 2007
Weibull mixture model for modeling nonisothermal kinetics of thermally stimulated solid-state reactions: application to simulated and real kinetic conversion dataJunmeng Cai, Ronghou Liu
Journal of Computational Chemistry|January 9, 2009
A new iterative linear integral isoconversional method for the determination of the activation energy varying with the conversion degreeJunmeng Cai, Siyu Chen
Bioresource Technology|August 19, 2007
New distributed activation energy model: numerical solution and application to pyrolysis kinetics of some types of biomassJunmeng Cai, Ronghou Liu
Bioresource Technology|January 3, 2013
Sensitivity analysis of three-parallel-DAEM-reaction model for describing rice straw pyrolysisJunmeng Cai, Weixuan Wu, Ronghou Liu
Bioresource Technology|December 8, 2010
Logistic distributed activation energy model--part 2: application to cellulose pyrolysisJunmeng Cai, Songyuan Yang, Tao Li
Bioresource Technology|December 24, 2010
A critical study of the Miura-Maki integral method for the estimation of the kinetic parameters of the distributed activation energy modelJunmeng Cai, Tao Li, Ronghou Liu
Bioresource Technology|August 11, 2018
Synergetic effects during co-pyrolysis of biomass and waste tire: A study on product distribution and reaction kineticsLinzheng Wang, Meiyun Chai, Ronghou Liu, et al.
Bioresource Technology|September 18, 2010
Logistic distributed activation energy model--Part 1: Derivation and numerical parametric studyJunmeng Cai, Chuan Jin, Songyuan Yang, et al.
Bioresource Technology|February 13, 2022
Investigation of product selectivity and kinetics of poplar sawdust catalytic pyrolysis over bi-metallic Iron-Nickel/ZSM-5 catalystYingkai Li, Dominic Yellezuome, Ronghou Liu, et al.
Pageof 2