Molecules, Год журнала: 2024, Номер 29(13), С. 3118 - 3118

Опубликована: Июнь 30, 2024

To investigate the control mechanisms of NOx precursors and synergistic effects composite catalysts during proline pyrolysis, a systematic series experiments was conducted utilizing with varying Fe-Ca ratios. Product distribution analysis employed to elucidate catalysts’ in reducing precursor emissions. The interactions between Fe Ca were quantitatively assessed through comparative theoretical experimental release calculations. results indicate that an increase content catalyst led rise amine concentrations from 0.9% 2.95%, implying facilitates generation amine-N ring-opening substitution reactions. When ratio balanced at 1:1, nitrogen predominantly participated formation purines via cyclization Additionally, all exhibited suppressive effect on precursors, attributed their significant enhancement solid product retention. synergistically inhibits gaseous nitrogen. Notably, strongest observed 1:3 ratio, which reduced NH3 by 38.7% HCN 53.6% pyrolysis. This study offers valuable insights into optimization nitrogen-rich biomass pyrolysis processes.

Язык: Английский