화학공학소재연구정보센터
International Journal of Hydrogen Energy, Vol.41, No.10, 5234-5242, 2016
Thermo-physical properties of pretreated agricultural residues for bio-hydrogen production using thermo-gravimetric analysis
This study was conducted to investigate thermo-physical properties of pretreated agricultural residues, in order to facilitate its further processing and utilization in the biohydrogen production researches. Soybean stalk, sorghum stalk, cotton stalk, corn stover, and corncob were investigated by thermo-gravimetric analysis method. The decomposition kinetic parameters were determined by FWO, DAEM, and Kissinger methods at heating rates of 5, 10, 20, 30, and 40 degrees C min(-1). Those fibers all had three mass loss steps assigned to moisture evaporation, main component decomposition, and other organic matters. Thermal stability of the fibers were all up to 200 degrees C, the peak temperature range of the decomposition process was 317.7-335.2 degrees C, and the main thermal decomposition ended about 350 degrees C when the mass loss up to 60%. The results showed that the apparent activation energy of each fiber changed along with the conversion rate, the average E-alpha, for most of selected fibers was close to each other, from 189.1 to 200.0 kJ mol(-1), except corncob. Corncob had the lowest residue content and E-alpha. Considering of the highest cumulative hydrogen yield of corncob, these findings allow developing a simplified approach to better understand the thermo-physical properties of agricultural residues in the process of biohydrogen production. Copyright (C) 2016, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.