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ABSTRACT Thermogravimetric investigation of the thermo-chemical conversion of water hyacinth to bio-fuels was carried out at temperatures between 35 and 915 °C under a nitrogen environment. It envisaged that the… Click to show full abstract
ABSTRACT Thermogravimetric investigation of the thermo-chemical conversion of water hyacinth to bio-fuels was carried out at temperatures between 35 and 915 °C under a nitrogen environment. It envisaged that the operational envelope for bio-oil production from water hyacinth pyrolysis lies between 250 and 550 °C. Kinetic analysis reveals that pyrolytic degradation of water hyacinth to bio-fuels is actually four consecutive reactions of desorption, evaporation, devolatization, and secondary cracking reactions, which takes place at the temperature range of 35 – 95 °C, 95 – 215 °C, 215 – 355 °C, and 355 – 915°C, with activation energies of 34.18, 6.60, 34.48, and 6.92 kJ/mol respectively. The kinetic parameters determined will prove useful in the design of pyrolysis reactors and gasifiers for the biomass.
Journal Title: International Journal of Green Energy
Year Published: 2019
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