Renewable Energy, Vol.149, 1133-1145, 2020
Co-pyrolysis of bamboo sawdust and plastic: Synergistic effects and kinetics
The co-pyrolysis of bamboo sawdust (BSD) and linear low-density polyethylene (LLDPE) is studied for the first time using thermogravimetric analysis (TGA) in the temperature range of 30-900 degrees C at heating rates 5, 10 and 20 degrees C.min(-1). A blend containing 25 wt% BSD and 75 wt% LLDPE (BP1:3) shows the highest synergism as compared to other blends studied. The activation energy drop (36% with respect to biomass) is also highest with this blend. The kinetic parameters are determined using three models based on the isoconversional method: Kissinger-Akahira-Sunose (KAS), Ozawa-Flynn-Wall (OFW), and Friedman (FM) models. The mean values of apparent activation energy for the decomposition of blends (BP3:1 (75 wt% BSD and 25 wt% LLDPE), BP1:1 (50 wt% BSD and 50 wt% LLDPE) and BP1:3) are determined to be 357, 371 and 143 kJ mol(-1) from KAS, 368, 400 and 165 kJ mol(-1) from OFW and 468, 356 and 255 kJ mol(-1) from FM, respectively. The reaction follows a multistep mechanism as depicted by Criado's master plot. The decomposition of the blend BP1:3 follows a nucleation growth (A2) model in the lower conversion range and diffusion (D2) model in the higher conversion range. (C) 2019 Elsevier Ltd. All rights reserved.
Keywords:Co-pyrolysis kinetics;Bamboo biomass;Linear low-density polyethylene;Synergism;Isoconversional models;Criado's master plot