Issue 8, 2023

Co-combustion characteristics and kinetic analysis of three different wastes of antibiotic fermentation and coal

Abstract

This study uses thermogravimetric analysis to investigate the combustion characteristics and kinetics of three kinds of antibiotic fermentation residue (penicillin residue, streptomycin residue and cephalosporin residue), which were blended with a kind of Chinese coal. The kinetic parameters were estimated in terms of the Flynn–Wall–Ozawa (FWO) and Vyazovkin (V) methods, and the kinetic mechanism function was solved using the integral master-plot method. The experiments were carried under an air atmosphere of 40 mL min−1 at heating rates of 10, 15, 20, 25 and 30 °C min−1, and the comprehensive combustion characteristic index (SN) was introduced to evaluate the combustion performance. The results indicated that the combustion characteristic parameters of coal blended with 10–40% antibiotic fermentation residues (AFRs) were enhanced, and there was an especially dramatic rise in the comprehensive combustion index. There were synergistic effects in every blend, with negative effects occurring at temperatures between 200 and 450 °C and with positive effects during the char oxidation period. For streptomycin residue, the lowest average activation energy of the blends was obtained at a 20% blending ratio. For the penicillin residue, the lowest average activation energy of the blends was at 10% and it was at the same percentage (10%) for the cephalosporin residue. The integral master-plot method was utilized to determine the appropriate kinetic model of combustion for the blends.

Graphical abstract: Co-combustion characteristics and kinetic analysis of three different wastes of antibiotic fermentation and coal

Supplementary files

Article information

Article type
Communication
Submitted
25 Dec 2022
Accepted
03 Mar 2023
First published
04 Mar 2023

Sustainable Energy Fuels, 2023,7, 1793-1803

Co-combustion characteristics and kinetic analysis of three different wastes of antibiotic fermentation and coal

G. Yuan, R. Liang, E. Duan and R. Liu, Sustainable Energy Fuels, 2023, 7, 1793 DOI: 10.1039/D2SE01773C

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