Document Type
Article
Abstract
In many counties, hemp is becoming a high-valued economic crop. Post-processing, more than 65% w/w of its starting material becomes waste. Herein, pyrolysis of hemp hurds/residues was investigated under low (10-50 degrees C/min) and intermediate (100-150 degrees C/min) heating rates using a discrete distributed activation energy model (DAEM). Thermochemical decomposition of hemp hurds occurred in three stages: drying, active pyrolysis, and char formation, accounting for 70-80% w/w overall weight loss. With the discrete DAEM, the model can be utilized for predicting pyrolysis behaviors of hemp hurds accurately with correlation coefficient of over 0.99. Different reaction mechanisms appeared between the low and intermediate heating rates with 60 and 25 parallel first-order pyrolytic reactions detected, respectively. Under low heating rates, the pyrolysis showed high reactivity. The activation energy (E) and enthalpy change (Delta H) varied within 240-320 kJ/mol. The Gibbs free energy (Delta G) was 120-200 kJ/mol. The entropy change (Delta S) was 120-300 J/mol.K. Under intermediate heating rates, the reactions were close to thermodynamic equilibrium and stability. The E and Delta H fluctuated from 80 to 250 kJ/mol. The Delta G was within 160-200 kJ/mol. The Delta S was between -100 and 100 J/mol.K.
Digital Object Identifier (DOI)
Publication Info
Published in Case Studies in Thermal Engineering, Volume 31, 2022.
Rights
© 2022 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (https://creativecommons.org/licenses/by-nc-nd/4.0/).
APA Citation
Mankeed, P., Onsree, T., Naqvi, S. R., Shimpalee, S., & Tippayawong, N. (2022). Kinetic and thermodynamic analyses for pyrolysis of hemp hurds using discrete distributed activation energy model. Case Studies in Thermal Engineering, 31, 101870. https://doi.org/10.1016/j.csite.2022.101870