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Evaluating Combustion Ignition, Burnout, Stability, and Intensity of Coal–Biomass Blends Within a Drop Tube Furnace Through Modelling

Author

Listed:
  • Garikai T. Marangwanda

    (Department of Mechanical Engineering Science, University of Johannesburg, Johannesburg 2026, South Africa
    Centre of Applied Research and Innovation in the Built Environment, University of Johannesburg, Johannesburg 2026, South Africa)

  • Daniel M. Madyira

    (Department of Mechanical Engineering Science, University of Johannesburg, Johannesburg 2026, South Africa)

Abstract

This study focused on evaluating the combustion ignition, burnout, stability, and intensity of Hwange coal and Pinus sawdust blends within a drop tube furnace (DTF) through modelling. The cocombustion of coal with biomass is gaining attention as a strategy to improve fuel efficiency and reduce emissions. Hwange coal, a key energy source in Zimbabwe, produces significant emissions, while Pinus sawdust offers a renewable alternative with favourable combustion properties. Optimising cocombustion performance is highly dependent on understanding various mass- and energy-conservation-related parameters in detail, hence the motivation of this study. The fuels of interest were blended through increasing the Pinus sawdust mass percentages up to 30%. A DTF that is 2 m long and 0.07 m in diameter was modelled and validated successfully using particle residence time and temperature profiles. An increase in blending resulted in an increase in combustion intensity, as made apparent by the heat of reaction profiles, which were also shown to be dependent on the kinetic rate of the reaction between CO and O 2 to form CO 2 . The burnout rate profiles demonstrated that as blending increased, heat was released more abruptly over a short distance; hence, combustion became less stable. The burnout rate profiles were shown to be dependent on the kinetic rate of reaction between char and O 2 to form CO. The effect of DTF wall temperatures (1273, 1473, and 1673 K) was also studied, with the results showing that at a low temperature, the reaction zone was delayed to a distance of 0.8 m from the injection point, as compared to 0.4 m at 1673 K. In summary, this study demonstrated that combustion ignition, burnout, and intensity increased with the blending ratio of Pinus sawdust, whilst combustion stability decreased.

Suggested Citation

  • Garikai T. Marangwanda & Daniel M. Madyira, 2025. "Evaluating Combustion Ignition, Burnout, Stability, and Intensity of Coal–Biomass Blends Within a Drop Tube Furnace Through Modelling," Energies, MDPI, vol. 18(6), pages 1-22, March.
    • Handle: RePEc:gam:jeners:v:18:y:2025:i:6:p:1322-:d:1607560
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    References listed on IDEAS

    as
    1. Garikai T. Marangwanda & Daniel M. Madyira & Patrick G. Ndungu & Chido H. Chihobo, 2021. "Combustion Characterisation of Bituminous Coal and Pinus Sawdust Blends by Use of Thermo-Gravimetric Analysis," Energies, MDPI, vol. 14(22), pages 1-19, November.
    2. Xinjie, Liao & Shihong, Zhang & Xincheng, Wang & Jinai, Shao & Xiong, Zhang & Xianhua, Wang & Haiping, Yang & Hanping, Chen, 2021. "Co-combustion of wheat straw and camphor wood with coal slime: Thermal behaviour, kinetics, and gaseous pollutant emission characteristics," Energy, Elsevier, vol. 234(C).
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