Characterization of depolymerized residues from extremely low acid hydrolysis (ELA) of sugarcane bagasse cellulose: Effects of degree of polymerization, crystallinity and crystallite size on thermal decomposition

Sugarcane bagasse cellulose was subjected to the extremely low acid (ELA) hydrolysis in 0.07% H2SO4 at 190, 210 and 225 °C for various times. The cellulose residues from this process were characterized by TGA, XRD, GPC, FTIR and SEM. A kinetic study of thermal decomposition of the residues was also carried out, using the ASTM and Kissinger methods. The thermal studies revealed that residues of cellulose hydrolyzed at 190, 210 and 225 °C for 80, 40 and 8 min have initial decomposition temperature and activation energy for the main decomposition step similar to those of Avicel PH-101. XRD studies confirmed this finding by showing that these cellulose residues are similar to Avicel in crystallinity index and crystallite size in relation to the 110 and 200 planes. FTIR spectra revealed no significant changes in the cellulose chemical structure and analysis of SEM micrographs demonstrated that the particle size of the cellulose residues hydrolyzed at 190 and 210 °C were similar to that of Avicel.

► Cellulose residues hydrolyzed at 190, 210 and 225 °C have initial decomposition temperature and activation energy similar to Avicel PH-101.
► XRD studies confirm that the cellulose residues are very similar to Avicel in crystallinity index and crystallite size.
► SEM micrographs demonstrated that the particle size of the cellulose residues hydrolyzed at 190 and 210 °C were similar to Avicel.
► FTIR spectra of cellulose residues indicated that the degree of chemical modification of cellulose increases with the severity of hydrolysis.