Kinetic study and effect of flash pyrolysis temperature of kraft lignin on the yield of aromatic compounds

Kinetic study and effect of flash pyrolysis temperature of kraft lignin on the yield of aromatic compounds

The growth in global energy demand and the urge to reduce CO 2 emission make renewable sources viable alternatives to replace fossil fuels and petrochemicals. Black liquor, a by-product of pulp industry, has been mostly burned to generate energy. Nevertheless, its pyrolysis is an alternative valoriz...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry Vol. 148; no. 22; pp. 12725 - 12737
Main Authors: de Oliveira, Gislane Pinho, de Melo Siqueira, Lorena Araújo, Calixto, Guilherme Quintela, de Araújo Melo, Dulce Maria, de Freitas Melo, Marcus Antonio, Pimenta, Alexandre Santos, Braga, Renata Martins
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-11-2023
Springer
Springer Nature B.V
Subjects:
Activation energy
Alternative fuels
Analytical Chemistry
Aromatic compounds
Black liquor
Calorific value
Chemistry
Chemistry and Materials Science
Energy minerals
Fossil fuels
Inorganic Chemistry
Lignin
Measurement Science and Instrumentation
Petroleum chemicals
Physical Chemistry
Polymer Sciences
Pyrolysis
Toluene
Volatile compounds
Xylene
Kinetic study
Flash pyrolysis
Renewable aromatics
Kraft lignin
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Summary:The growth in global energy demand and the urge to reduce CO 2 emission make renewable sources viable alternatives to replace fossil fuels and petrochemicals. Black liquor, a by-product of pulp industry, has been mostly burned to generate energy. Nevertheless, its pyrolysis is an alternative valorization route for obtaining valuable aromatics. The present study aims the energetic characterization of kraft lignin, evaluation of the kinetics of commercial alkaline lignin as a standard model, and the study of the renewable aromatics yield obtained from flash pyrolysis of kraft lignin at 400, 500 and 600 °C. The kinetic study shows an increasing apparent activation energy up to 760 °C, with a maximum value of 338.2 kJ mol −1 . The reaction order greater than one for 35–840 °C reinforces the bimolecular mechanism degradation. The main pyrolysis products were phenolics and aromatics with methoxy groups. The highest amount of phenolics, toluene, and p -xylene was obtained at 600 °C. Results show that lignin has low energetic potential for thermochemical processes due to the low content of volatiles (45.64%) and ash (21.6%), and low calorific value (15 MJ kg −1 ). Despite low volatile content, the results show kraft lignin is a renewable alternative source with potential to generate building blocks.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-023-12577-4