Assessment of the behavior of Rosa rubiginosa seed waste during slow pyrolysis process towards complete recovery: Kinetic modeling and product analysis

The aim of this work was to analyze the exhausted waste of sweet briar rosehip seeds (RSW) from an oil pro-duction industry in order to study its pyrolysis kinetics and the products obtained, for evaluation of its potential for thermochemical processes with the aim of achieving total recovery. Pyrolysis modeling by deconvolution showed the existence of four processes: one related to the loss of remaining moisture, and three pyrolysis re-actions linked to the decomposition of hemicelluloses, cellulose and lignin. Activation energy was 62.08 kJ/mol for physical evaporation, and 167.96 kJ/mol, 266.28 kJ/mol and 210.16 kJ/mol for the pyrolysis of hemi-celluloses, cellulose, and lignin, respectively. The kinetic model that best fit the experimental data was the re-action order with n between 3 and 4.8 for the pyrolysis reactions and n = 2.8 for moisture evaporation. Gases released were CO2, CO, CH4, H2, CH3OH, and water vapor. The highest production of CO2 and CO occurred at 300-350 degrees C, mainly due to the decomposition of hemicelluloses and cellulose, while the highest production of H2 and CH4 occurred from 350 to 400 degrees C onwards, mainly as a consequence of lignin decomposition. A total 59 compounds were identified in tar products by GC-MS, most of them phenolic by lignin rupture. SEM analysis of the biochar showed an increase in pore size and interstices on the surface with temperature. The SEM-EDS and XRD analysis of ashes showed high Ca content (53.02 %), with Ca being present in compounds such as hy-droxyapatite, portlandite, magnesian calcite and KCaPO4. The study demonstrated the potential of RSW for recovery through thermochemical methods, also revealing the decomposition kinetics in an inert atmosphere, which need to be known for designing pyrolysis, gasification or combustion power plants.

Automated summary

This study analyzed the waste of sweet briar rosehip seeds from an oil production industry to evaluate its potential for thermochemical processes. The pyrolysis kinetics and products were studied, revealing the decomposition reactions and gases released. The study demonstrated the potential of sweet briar rosehip seeds for recovery and provided important information for designing power plants.