Jianren Xu scite author profile

This work was focused on understanding the pyrolysis of Typha latifolia. Kinetics, thermodynamics parameters and pyrolysis reaction mechanism were studied using thermogravimetric data. Based on activation energies and conversion points, two regions of pyrolysis were established. Region-I occurred between the conversion rate 0.1-0.4 with peak temperatures 538K, 555K, 556K at the heating rates of 10Kmin, 30Kmin, and 50Kmin, respectively. Similarly, the Region-II occurred between 0.4 and 0.8 with peak temperatures of 606K, 621K, 623K at same heating rates. The best model was diffusion mechanism in Region-I. In Region-II, the reaction order was shown to be 2nd and 3rd. The values of activation energy calculated using FWO and KAS methods (134-204kJmol) remained same in both regions reflecting that the best reaction mechanism was predicted. Kinetics and thermodynamic parameters including E, ΔH, ΔS, ΔG shown that T. latifolia biomass is a remarkable feedstock for bioenergy.

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Pyrolysis and kinetic analyses of Camel grass ( Cymbopogon schoenanthus ) for bioenergy

Mehmood

Luo

et al. 2017

Bioresource Technology

203

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Prospects of algae-based green synthesis of nanoparticles for environmental applications

et al. 2022

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Jianren Xu

Cultivating microalgae in wastewater for biomass production, pollutant removal, and atmospheric carbon mitigation; a review

Pyrolysis, kinetics analysis, thermodynamics parameters and reaction mechanism of Typha latifolia to evaluate its bioenergy potential

Pyrolysis and kinetic analyses of Camel grass ( Cymbopogon schoenanthus ) for bioenergy

Prospects of algae-based green synthesis of nanoparticles for environmental applications

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