Abstract
Co-thermal treatment of binary biomass mixture is an alternative to enhance the refractory decomposition of biomass thermal degradation efficiency resulted in the synergistic reaction. Rice straw (RS) containing a large amount of fixed carbon (FC) is quite difficult to thermally decompose at a lower temperature. Considering the RS and sewage sludge (SS), co-thermal treatment for enhancing energy conversion efficiency was feasible. This study investigates the kinetic behaviors and gas evolution of RS, SS, and their blends under co-thermal decomposition processes using Thermogravimetric analysis combined with Fourier-Transform Infrared Spectroscopy (FTIR). The experimental results indicate that SS could enhance the volatile matter decomposition in RS co-thermal process at lower temperatures. Activation energy decreases from 53 to 49 kJ mol− 1 with an increase in SS addition from 50 to 80% under pyrolysis conditions. The major volatile components were aliphatic chains with double bonds, as well as carbonyl, hydroxyl, and C–H groups in organic compounds by FTIR identification. The tested materials characteristics in terms of volatile matter (VM)-to-FC ratio significantly affected the thermal degradation performance. Activation energy was decreased with increasing the VM/FC ratio. It implied that co-thermal reaction could be accelerated. In summary, the results could provide the important information for co-thermal treatment of SS and RS in application for commercial-scale plant design.
Highlights
170 kt of sewage sludge (SS) derived from municipal wastewater treatment plants (WWTPs) are generated in Taiwan annually [1]
rice straw (RS) has a significant influence on the volatile matter (VM) released in co-pyrolysis/gasification
TGAFTIR revealed a series of organic species containing moisture, CO2, CO, CH4, acidic gases, and aromatic compounds
Summary
170 kt (based on 80% moisture content) of sewage sludge (SS) derived from municipal wastewater treatment plants (WWTPs) are generated in Taiwan annually [1]. The common traditional habits of farmers include open firing RS treatment. This option will not be sustainable at current or projected levels due to increasing competition for landfill space, Ngo and Chiang Sustainable Environment Research (2021) 31:23 yield. To cope with the increasingly stringent regulations, constantly rising treatment cost and final disposal cost of SS and RS, the Taiwan government planned to establish strategies and develop innovative technologies for treating the above wastes and achieving the circular economy target. Among the thermal conversion technologies, gasification is an innovative technology because it has several potential advantages associated with high carbon conversion, high calorific value synthesis gas, and flexible biomass utilization and/or agricultural waste-to-energy [3]. The literature results indicated that co-gasification could improve volatile matter thermal behavior and enhance energy conversion efficiency
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