Kinetic and thermodynamic analyses of dried oily sludge pyrolysis

Oily sludge has the potential to utilize in pyrolysis process effectively because of higher product recovery and lower harmful emissions. Due to the complex nature of reactions, it is necessary to evaluate the thermo-kinetic behavior of the process to make it commercially feasible. This study includ...

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Bibliographic Details
Published in:Journal of the Energy Institute 2021-04, Vol.95, p.30-40
Main Authors: Ali, Imtiaz, Tariq, Rumaisa, Naqvi, Salman Raza, Khoja, Asif Hussain, Mehran, Muhammad Taqi, Naqvi, Muhammad, Gao, Ningbo
Format: Article
Language:English
Subjects:
Chemical Engineering
Kemiteknik
Kinetic analysis
Oily sludge
TGA
Thermodynamic analysis
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Summary:Oily sludge has the potential to utilize in pyrolysis process effectively because of higher product recovery and lower harmful emissions. Due to the complex nature of reactions, it is necessary to evaluate the thermo-kinetic behavior of the process to make it commercially feasible. This study includes thermal degradation behavior, the kinetic and thermodynamic analysis of dry oily sludge by applying Friedman and Vyazovkin method (model-free approach), and Coats-Redfern method (model-fitting approach) with the help of thermogravimetric analysis TGA at different heating rates (5, 20, 40 °C/min). The active region was from 20 to 60% conversion range because the maximum conversion occurs in this region. The overall activation energy decreases as the conversion increases from a lower range (60%) to a higher range (80%) for all satisfied models. The estimated range of pre-exponential coefficient for each model was to 4.91E+15 to 2.30E-01min−1 in the conversion range of 20–60% and 9.80E+02 to 4.89E-04min−1 in the conversion range 60–80%. The overall value of the change in enthalpy ΔH and change in Gibbs free energy ΔG decrease as the conversion increases from the lower range to the higher range. •Thermal behavior of dried oily sludge pyrolysis was explored.•Heating rates have a significant effect on mass loss and peak temperatures.•The overall activation energy decreases as conversion increases from 60% to 80%.•Enthalpy ΔH and change in Gibbs free energy ΔG decreases as the conversion increases.
ISSN:1743-9671
1746-0220
DOI:10.1016/j.joei.2020.12.002