期刊论文详细信息
Biotechnology for Biofuels
Thermogravimetric and kinetic analysis to discern synergy during the co-pyrolysis of microalgae and swine manure digestate
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[1] 0000 0001 0662 3178, grid.12527.33, School of Environment, Tsinghua University, 100084, Beijing, China;0000 0004 1936 8403, grid.9909.9, School of Chemical and Process Engineering, The University of Leeds, LS2 9JT, Leeds, UK;Beijing Guohuan Tsinghua Environmental Engineering Design & Research Institute Co., Ltd., Beijing, China;
关键词: Microalgae;    Manure;    Co-pyrolysis;    Isoconversional;    Kinetics;    Thermogravimetric;   
DOI  :  10.1186/s13068-019-1488-6
来源: publisher
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【 摘 要 】

BackgroundCo-pyrolysis of wastes with other feedstock can synergistically improve the rate of biomass decomposition and also help to resolve the issues related to limited availability feedstock. In this regards, synergistic interaction between feedstock during co-pyrolysis is an important aspect of research. As the constituents of aquatic and lignocellulosic biomass are different, and the decomposition pattern of aquatic biomass is dissimilar when compared to lignocellulosic biomass, it is important to understand whether these two biomasses interact during co-pyrolysis.ResultsSynergism in the co-pyrolysis of microalgae (MA), swine manure digestate (SWD), and their blends (MA/SWD) (w/w %), 2.5/7.5 (MD-1), 5/5 (MD-2), and 7.5/2.5 (MD-3), was evaluated based on decomposition behavior, gas yields, extent of thermal degradation, and kinetics. Extractives and volatiles in biomass enhanced the reaction kinetics and products yields, as indicated by the reduction in apparent activation energy of the blends, accompanied by an increase in H2, total gas yield, and extent in degradation. Thermogravimetric data, via isoconversional methods, were interpreted to achieve the apparent activation energies for the thermal degradation of the MA, SWD, and their blends. The best fit reaction models were identified using compensation effect and generalized master plots methods. Semi-quantitative method was used to quantify the evolved gas species. H2, CO, and CO2 were noted to be the dominant gases, implying that tar cracking and reforming reactions were predominant.ConclusionsOverall, synergy was noticed with respect to the pyrolysis of SWD biomass to gas products in the presence of MA biomass, whereas synergy was witnessed up to 50 w/w % MA in view of kinetic parameters as evaluation criteria.

【 授权许可】

CC BY   

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