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Pyrolysis kinetics and thermodynamic analysis of bamboo, bagasse, and rice husk bio-chars: Implications for sustainable energy

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  • Chaudhuri, Pratik
  • Pande, Rohan
  • Baraiya, Nikhil A.

Abstract

This study focuses on the kinetic and thermodynamic analysis of bio-chars derived from popular and abundantly available biomasses like bamboo, bagasse, and rice husk. These bio-chars obtained by pyrolysis aim to be utilised without any refinement for combustion purposes minimising greenhouse gases and contributing towards sustainable development goals. However, understanding the kinetic and thermodynamic properties of bio-char is essential for optimizing its combustion performance. The results indicate a marked improvement in fixed carbon content and calorific value compared to the original biomass, alongside a reduction in average activation energy. For example, bamboo bio-char exhibited an increase in fixed carbon content from 16.02 % to 68.28 %, a rise in higher heating value from 16.84 to 25.48 MJ/kg, and a decrease in average activation energy from 183.63 to 121.22 kJ/mol in comparision to bamboo biomass. Additionally, the study introduces a novel approach that combines model-free and model-fitting techniques to simultaneously determine the reaction mechanism and pre-exponential factor such that the need for separate validation ends. This novel methodology offers a state-of-the-art framework for assessing the bioenergy potential of various biomasses, applicable for studies and comparisons on a global scale.

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  • Chaudhuri, Pratik & Pande, Rohan & Baraiya, Nikhil A., 2024. "Pyrolysis kinetics and thermodynamic analysis of bamboo, bagasse, and rice husk bio-chars: Implications for sustainable energy," Renewable Energy, Elsevier, vol. 237(PA).
    • Handle: RePEc:eee:renene:v:237:y:2024:i:pa:s0960148124017063
    DOI: 10.1016/j.renene.2024.121638
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    1. Mohammad Nazbakhsh & Seyed Reza Nabavi & Sajedeh Jafarian, 2025. "Optimized Production of High-Performance Activated Biochar from Sugarcane Bagasse via Systematic Pyrolysis and Chemical Activation," Sustainability, MDPI, vol. 17(4), pages 1-21, February.

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