Fast Pyrolysis of Cellulose and the Effect of a Catalyst on Product Distribution

Fast pyrolysis of microcrystalline cellulose (MC) was carried out by pyrolysis-gas chromatography/mass spectrometry (Py-GC/MS). The effects of temperature, time, and a catalyst on the distribution of the pyrolysis products were analyzed. The reaction temperature and time can significantly affect the types and yields of compounds produced by cellulose pyrolysis. A pyrolysis temperature of 500-600 degrees C and pyrolysis time of 20 s optimized the yield of volatile liquid in the pyrolysis products of cellulose. In all catalytic experiments, the relative contents of alcohols (1.97%), acids (2.32%), and esters (4.52%) were highest when K2SO4 was used as a catalyst. HZSM-5 promoted the production of carbohydrates (92.35%) and hydrocarbons (2.20%), while it inhibited the production of aldehydes (0.30%) and ketones (1.80%). MCM-41 had an obvious catalytic effect on cellulose, increasing the contents of aldehydes (41.58%), ketones (24.51%), phenols (1.82%), furans (8.90%), and N-compounds (12.40%) and decreasing those of carbohydrates (5.38%) and alcohols (0%).

Automated summary

Fast pyrolysis of microcrystalline cellulose was conducted using Py-GC/MS. The study analyzed the effects of temperature, time, and catalyst on the distribution of pyrolysis products. Results showed that temperature and time played a significant role in determining the type and yield of compounds produced. The optimal conditions for maximum volatile liquid yield were found to be a pyrolysis temperature of 500-600 degrees C and a pyrolysis time of 20 s. Different catalysts had varying effects on the composition of pyrolysis products, with K2SO4 yielding the highest content of alcohols, acids, and esters.