Co-Gasification of Sugarcane Bagasse and Coal: A Study on Thermal Characteristics and Efficiency

Benjamin T. ABUR; Abubakar A. WARA; David ISAH; Mary D. IGBUR; Catherine N. KWAGHMANDE

doi:10.33003/aq96yk07

Co-Gasification of Sugarcane Bagasse and Coal: A Study on Thermal Characteristics and Efficiency

Authors

Benjamin T. ABUR

Department of Mechanical/Production Engineering, Abubakar Tafawa Balewa University, Bauchi, Nigeria

Author
Abubakar A. WARA

National Board for Technology Incubation (NBTI), Abuja, Nigeria

Author
David ISAH

Grand Cereals Limited, Subsidiary of UACN PLC, Bukuru, Jos, Nigeria

Author
Mary D. IGBUR

Technical and Vocational Skills Training development (TVSTD), Industrial Training Fund Headquarters, Jos, Nigeria

Author
Catherine N. KWAGHMANDE

Benue State University, Makurdi, Benue State, Nigeria

Author

DOI:

https://doi.org/10.33003/aq96yk07

Keywords:

Co-gasification, sugarcane bagasse, coal, thermal characteristics.

Abstract

Biomass fuels offers sustainable alternative to traditional energy sources, mitigating pollution and landfill disposal challenges. This work aim at identifying an optimal blend for enhancing gasification efficiency, operational stability and reduced emissions. Ultimate analysis was adopted for elemental composition determination, proximate analysis for physical and chemical properties while the energy content was determined through calorimetry and thermal degradation behavior using the thermo-gravimetric analysis. Elemental analysis of coal, sugar cane bagasse and their blends revealed principal chemical constituents of carbon, hydrogen and oxygen, with coal demonstrating higher carbon content. Nitrogen composition is negligible for pure and blended samples. Results indicate that coal provide more energy than bagasse owing to its lower ash content and higher carbon concentration. Conversely, calorific value of blends increased with proportion of bagasse, likely due to its high reactivity, which catalyzes coal combustion. Thermo-gravimetric analysis (TGA) displays maximum de-volatilization at 900°C, with rapid weight loss between 300-550 °C for all blends. Derivative (DTG) profiles of blends exhibit two peaks: first peak at 320-350°C, with second peak at 400-800°C representing sub-bituminous coal de-volatilization. This study concludes that blending 10% coal with 90% sugarcane bagasse optimize calorific values, thermal stability, efficiency and minimizes environmental pollution.

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Published

08-08-2025

Issue

Vol. 1 No. 2 (2025): December 2025

Section

Articles

License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

Co-Gasification of Sugarcane Bagasse and Coal: A Study on Thermal Characteristics and Efficiency. (2025). FUDMA Journal of Engineering and Technology, 1(2), 183-189. https://doi.org/10.33003/aq96yk07

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