2021
DOI: 10.1016/j.enconman.2020.113717
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Mechanism of synergistic effects and kinetics analysis in catalytic co-pyrolysis of water hyacinth and HDPE

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Cited by 62 publications
(7 citation statements)
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“…This indicates that the free radicals generated from AP enhanced the reaction [ 41 ]. The existence of a catalyst in the blend shifted the initial and the final reaction temperature in the second phase to a lower temperature, which indicates that HZSM-5 improved the reaction efficiency by lowering the activation energy [ 42 ]. Moreover, the final weight loss in 75A25WT+C was the lowest, with a final solid residue of 29%, implying that HZSM-5 could improve the pyrolysis process and facilitate the reaction.…”
Section: Resultsmentioning
confidence: 99%
“…This indicates that the free radicals generated from AP enhanced the reaction [ 41 ]. The existence of a catalyst in the blend shifted the initial and the final reaction temperature in the second phase to a lower temperature, which indicates that HZSM-5 improved the reaction efficiency by lowering the activation energy [ 42 ]. Moreover, the final weight loss in 75A25WT+C was the lowest, with a final solid residue of 29%, implying that HZSM-5 could improve the pyrolysis process and facilitate the reaction.…”
Section: Resultsmentioning
confidence: 99%
“…Furthermore, blended substrates placed in the co-pyrolysis technique would produce more yields and wider distributions (i.e., MAHs, PAHs, and other long-chain hydrocarbons) of pyrolytic products as compared to those of single lignin used due to the synergistic effect (Table 6 ) [ 64 , 322 ]. The quality of formed oils can be improved via co-feeding with plastics to increase the C/H content [ 323 ], and the heating value of condensable products obtained from co-pyrolysis would also be enhanced obviously [ 324 ]. Esso et al summarized some important parameters, such as blending ratio, heating system (including heating rate and reaction temperature), and catalyst used on the synergy effect between biomass and co-feedings [ 316 ].…”
Section: Co-pyrolysis With Other Hydrogen-rich Feedstockmentioning
confidence: 99%
“… 19 21 It is widely known that the physico-chemical structure (pore property, surface morphology, elementary compositions, carbon microcrystal structure, surface functional groups, and so forth) is the pivotal factor impacting the gasification performance of the char. 22 24 Co-pyrolysis of different solid fuels (coal, biomass, plastic, and so forth) would change the physico-chemical structure of the char, 25 27 then affecting their gasification performance. Therefore, it becomes significant to explore the impact of waste plastics on the physico-chemical structure property and gasification performance of co-pyrolytic char.…”
Section: Introductionmentioning
confidence: 99%